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R-90-1402 - 1/25/1990
PROJECT TELLABS DRIVE EXTENSION CHANGE ORDER NO. Four (4) D My of Round Rock ISSUE 81%07/91 SUBJECT Roadway Striping and 8 Wastewater Repair DESCRIPTION co 1. Addition (double) center striping. ,4 2. 8 W.W. repair across drainage channel at B.J. Hughes warehouse. 4,5 0 ,3 g REASON FOR CHANGE 1. Requested by owner. 2. Channel grading exposed 8 W.W. requiring alternate design. ORIGINAL CONTRACT $110,48i.2_5_ ADDITIONS TO DATE s 10,684.21 DEDUCTIONS TO DATE $ - O� ORIGINAL CONTRACT PERIOD 105 EXTENSIONS TO DATE 21 CONTRACT PERIOD TO DATE CAL. DAYS CAL. DAYS IZ(G CAL. DAYS THIS EXTENSION -U_ CAL. DAYS NEW CONTRACT PERIOD NIA CAL DAYS AMENDED COMPLETION DATE_ - q - 19 - 4o RECOMMENDED BY ACCEPTED BY APPROVED BY BAKER - AICKLEN & ASSOCIATES, INC. ENGINEER EPRESENT IVE GAREY ONSTRUCTION CO., INC. CONTRACTOR REPRESENTATIVE CITY OF OWNE CHANGE ORDER p ,il ROCK _ REPRESENTATIVE THIS ADD $ 5,5R8 on THIS DEDUCT $ - o - e M. Baker, P.E. 110,481.2S TOTAL ADD $16,277 21 TOTAL DEDUCT $ - G NEW CONTRACT AMOUNT $ 2°C , 753. 4(• 01/07/91 DATE DATE /qo,;L/C PROJECT MANUAL FOR TELLABS DRIVE EXTENSION O‘ R 04 _ C,, j, l TEX AS Prepared for CITY OF ROUND ROCK 221 E. Main Street Round Rock, Texas 78664 Owner 1 /ei October, 1989 Job Ivo. 601 - 007 -30 CONTRACT DOCUMENTS AND SPECIFICATIONS FOR TELLABS DRIVE EXTENSION PAVING & DRAINAGE IMPROVEMENTS Prepared for: City of Round Rock 221 East Main Street Round Rock, Texas 78664 Prepared by: Baker - Aicklen & Associates, Inc. 9111 Jollyville Road, Suite 107 Austin, Texas 78759 October 1989 TABLE OF CONTENTS Item. No. Category Description No. of Pages 00050 Notices Notice to Bidders 1 00060 Bidding Requirements Information to Bidders 4 00070 Contract Forms Statement of Bidder's Qualifications 2 Wage Rates 2 Bid Proposal 2 Bid Bond 2 Agreement 2 Performance Bond 2 Payment Bond 2 Maintenance Bond 1 Texas Sales Tax Exemption 1 Certificate Certificate of Insurance 3 140 Conditions of Contract General Conditions of Agreement 1 Special Provisions reserved Memoranda reserved Soils Investigation Trinity Engineering Testing 24 Corporation -- June 1989 1 I Item No. Category Description Technical Specifications I 101 Preparing ROW 2 102 Clearing and Grubbing 1 104 Removing Concrete 2 1 110 Street Excavation 2 111 Excavation 2 120 Channel Excavation 1 130 Borrow 1 II 132 Embankment 3 201 Subgrade Preparation 1 210 Flexible Base 3 I 220 Sprinkling for Dust Control 1 230 Rolling (Flat Wheel) 1 232 Rolling (Pneumatic Tire) 2 1 234 Rolling (Tamping) 1 236 Rolling (Proof) 1 301 Asphalt, Oils, Emulsions 6 306 Prime Coat 2 I 307 Tack Coat 2 340 Hot Mix Asphaltic Concrete Pavement 10 401 Structural, Excavation & Backfill 6 ' 403 Concrete for Structures 8 405 Concrete Admixtures 3 406 Reinforcing Steel 5 1 408 Concrete Joint Materials 2 409 Membrane Curing 2 410 Concrete Structures 16 411 Surface Finishes for Concrete 6 ' 430 Concrete Curb and Gutter 2 433 Concrete Driveway 2 436 Concrete Valley Gutters 2 II 503 Frames, Grates, Rings and Covers 1 506 Manholes 2 508 Misc. Structures & Appurtenances 4 II 510 Pipe 38 559 Concrete Box Culverts 4 591 Riprap for Scope Protection 3 601 Salvaging & Placing Topsoil 1 II 604 Seeding for Erosion Control 3 606 Fertilizer 1 639 Rock Berm 1 1 642 Silt Fence 2 670 Hay Bale Dike 1 706 Bridge and Culvert Railing 3 1 860 824 Traffic Signs 4 Pavement Marking Paint 6 900 Restoration 1 1 1 1 No. of Pages 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 NOTICE TO BIDDERS Project: Tellabs Drive Extension Paving & Drainage Improvements Owner: City of Round Rock Separate sealed bids for approximately 1,900 linear feet of 40- foot -wide asphalt, curb and guttered roadway and drainage improvements, extending the existing Tellabs Drive from Jeffrey Way in AmorRon Park Subdivision to Greenhill Drive in Crystal Park Subdivision, will be received by the City of Round Rock at the office of the City Secretary at 221 East Main Street, Round Rock, Texas 78664, until 2:00 o'clock p.m., October 24 , 1989, and then in the Council Chambers, publicly opened and read aloud. The Information for Bidders, Form of Bid, Form of Contract, Plans, Specifications, and Farms of Bid Bond Performance and Payment Bond, and other contract documents may be examined and /or copies obtained at the office of Baker - Aicklen & Associates, Inc. at 9111 Jollyville Road, Suite 107, Austin, Texas 78759, (512) 346 -6980 upon payment of $100.00 for each set. A refund will be made provided the drawings and specifications are returned in good condition within 10 days after the bid opening. The Owner reserves the right to waive any informalities or to reject any or all bids. Each bidder must deposit with his bid, security in the amount of 5 percent of maximum total bid, subject to the conditions provided in the Information for Bidders. No bidder may withdraw his bid within 30 days after the actual date of the opening thereof. The above referenced documents will be available for examination and to be picked up at the location described above on or about October 11 , 1989. BIDDING REQUIREMENTS 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1.0 INVITATION 2.0 BID PERIOD a. Addenda. Addenda will be issued to bidders of record. c. Qualifications of Bidders. 3.0 BID SUBMITTAL INFORMATION TO BIDDERS Tellabs Drive Extension Paving and Drainage Improvements a. The Work. Bids are invited on a contract for the construction of Tellabs Drive Extension in Round Rock, Texas. The project begins at the intersection of Jeffrey Way and Tellabs Drive in the AmorRon Park Subdivision and extends southward to Greenhill Drive located in the Crystal Park Subdivision. The work in this contract generally consists of approximately 1,900 linear feet of 40- foot -wide asphalt curb and guttered roadway, and related drainage improvements. b. Questions. Submit written questions about bidding documents to the Engineer. Inquiries must be received no later than 1 week prior to bid opening. Necessary replies will be issued to bidders of record as addenda, which become a part of the bidding documents. Oral instructions do not form a part of the bidding documents. (1) The owner may make any investigations deemed necessary to determine the-bidder's ability to perform the work. When requested for this purpose, furnish such information including a list of proposed subcontractors. (2) The owner reserves the right to reject the bid of any bidder if evidence or investigation indicates that the bidder is not property qualified, in the opinion of the owner, to complete the work satisfactorily. a. Receipt of Bids. Sealed bids will be received until the time specified in the Notice to Bidders. Bids received after this time will not be accepted. Bid opening will be held immediately after this time for receipt of bids has expired. Bids will be opened publicly and read aloud in the Round Rock Council Chambers, 221 E. Main Street, Round Rock, Texas 78664. All interested parties are invited to attend. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 b. Bid Form. A bid form is bound with the specifications. (1) Submit the proposal and other required data in an opaque, sealed envelope. If submitted by mail, enclose bid envelope in another envelope addressed for mailing. Plainly identify the sealed envelope with the following information: a. Do not open before 2:00 p.m., October 24, 1989 b. Bid for Tellabs Drive Extension. c. Bidder: (2) Submit bid on the bid form provided. Fill in all blanks: failure to comply may be cause for rejection. If no amount is to be included, insert zeros ( -0 -) in the spaces. No segregated bids or assignments will be considered. (3) Acknowledge receipt of addenda by writing the addendum number and date in the space provided on the bid form. (4) Do not alter the bid form with written memoranda or qualifications. Any explanation, alternation or other statement proposed by the bidder must be written separately, signed independently, and included in the bid envelope. (5) Sign in longhand below the typed name of the person authorized to bind the bidder to a contract. When the bidder is a corporation the bid must be signed with the legal name of the corporation followed by the name of the state of incorporation and the legal signature of a person authorized to bind the corporation to a contract. c. Alternatives. Wherever in these specifications an item is identified by a "brand name or equal" description, alternatives will be considered. The bidder is responsible for insuring that sufficient data is provided to the Engineer in adequate time so that the requirements concerning questions under paragraph 2.0 BID PERIOD of this Information for Bidders can be satisfied. d. Completion Time. (1) The work shall be completed within the number of calendar days given in the bid form. The time begins from date of Notice to Proceed. (2) Submission of a bid constitutes acceptance by the bidder of the completion time as a part of the requirements for this work. (3) The contractor agrees to pay the owner, or allow the owner to deduct from the contract sum, as liquidated damages, the sum specified in the General Conditions for each calendar day that the work remains incomplete after expiration of the contract time and for each day the progress of the project is delayed by the contractor's failure to complete a portion of the work specified in the construction schedule. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 e. Bid Security. All proposals shall be accompanied by a certified cashier's check upon a national or state bank in the amount of five (5 %) percent of the total maximum bid price payable without recourse to The City of Round Rock, or a bid bond in the same amount from a reliable surety company, as a guarantee that bidder will enter into a contract and execute performance bond within ten (10) days after notice of award of contract to him. Provided however, if the contract price is less than $50,000.00, the bidder shall have the option of providing a letter of credit in lieu of a performance bond, said letter of credit to be in a form acceptable to the City of Round Rock. The notice of award of contract shall be given by the Owner within sixty (60) days after the bid opening. The bid security must be enclosed in the same envelope with the bid. Bids without check or bid bond will not be considered. All bid securities will be returned to the respective bidders within twenty -five (25) days after bids are opened, except those which the Owner elects to hold until the successful bidder has executed the contract. Thereafter, all remaining securities, including security of the successful bidder, will be returned within sixty (60) days. f. Modification or Withdrawal. Bids may be withdrawn any time before bid opening, but may not be resubmitted. Bids may not be withdrawn or modified after bid opening. 4.0 CONTRACT REQUIREMENTS a. Award of Contract. The owner is not obligated to accept any bid. The owner reserves the right to reject any or all bids, and to waive any irregularities in bids or in bidding. b. Statement of Bidder's Qualifications. Apparent low bidder will be required to complete a Statement of Bidder's Qualifications within 3 days after bid opening. c. Contract Forms. The successful bidder will be required to complete a Contract and an affidavit included within these specifications. d. Performance and Payment Bonds. The successful bidder must furnish performance bond or letter of credit, if applicable, payment bond and maintenance bond in the amount of one hundred (100 %) of the contract price from an approved surety company holding a permit from the State of Texas to act as surety (and acceptable according to the latest list of companies holding certificates of authority from the Security of the Treasury of the United States) or other surety or sureties acceptable to the Owner, with approval prior to bid opening. It is further agreed by the Parties to the Contract that the Contractor will execute separate performance and payment bonds, each in the sum of 100% of the total contract price in standard forms for this purpose, guaranteeing faithful performance of the work and the fulfillment of any guarantees required and further guaranteeing payment to all persons supplying labor and materials or furnishing him any equipment in the execution of the Contract. If the contract price is less than 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 $50,000.00, a letter of credit may be furnished in lieu of a performance bond. It is agreed that the Contract shall not be in effect until such performance bonds or letters of credit, and payment bonds are furnished and approved by the Owner. The cast of the premium for the performance bonds or letters of credit, and payment bonds shall be included in the price bid by the Contractor for the work under this Contract, and no extra payment for such bonds or letters of credit will be made by the Owner. e. Maintenance Bond. The successful bidder shall execute a maintenance bond in the amount of 100 per cent of the contract price. This bond shall be in effect for two years from and after the date of acceptance of the completed contract work by the Owner. Use maintenance bond form as provided. f. Notification to City. Contractor shall notify the City of Round Rock Public Works Department (within 10 days) after accepting new contracts as either sub or general contractors, along with a list of manpower and equipment to be moved from this project, if any. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 STATEMENT OF BIDDER'S QUALIFICATIONS (To be completed by Low Bidder within 3 days of bid opening.) All questions must be answered and the data given must be clear and comprehensive. This statement must be notarized. If necessary, questions may be answered on separate attached sheets. The Bidder may submit any additional information he desires. 1. Name of Bidder. 2. Permanent main office address and telephone number. 3. When organized. MBE WBE 4. If corporation, where incorporated. 5. How many years have you been engaged in the contracting business under your present firm or trade name? Years. 6. Contracts on hand (or scheduled to begin within 180 days): (Provide a schedule of these, showing name and address of Owner, Engineer, Architect, amount of each contract, manpower and equipment, and the approximate anticipated dates of completion.) 7. Classification of work performed by your company in which you request prequalification by the City as a Prime Contractor by your experience record in: Airport Buildings Airport Construction Bridges Building Remodeling Buildings Drainage Electric, Overhead Electric, Underground Parks Power Plants, New Power Plants, Retrofit Streets Subdivision Electric Swimming Pools Wastewater Plants Wastewater Storage and Pumping Water Plants Water and Wastewater Distr. & Collection Water Storage and Pumping Multiple T.B.M. Tunneling over 10,000 L.F. Other (specify) 8. Have you completed all contracts awarded to you? yes no. If no, submit details. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 9. Has your firm ever been awarded a bonus for early completion of work? yes _no. If yes, give details. 10. Have you ever defaulted on a contract? _ If so, where and why? 11. Is your firm presently engaged in litigation with any City? yes _no. If yes, submit description and state case number, style of case and court in which pending or in which judgment was entered. 12. Has your firm ever been assessed Liquidated Damages on any project? _ yes no. If yes, submit details. 13. Attach a list of the more important projects recently completed by your company (six most recent), stating the approximate cost for each and the month and year completed. Attach name and address and phone number of the person to contact for each project. 14. Attach a list of your manpower, major equipment available for this contract, and schedule of construction. 15. List experience in construction work similar in importance to this project. Attach name, address and phone number of person to contact from each project. 16. Explain relations with public an past City projects. 17. Attach a copy of the OSHA Form 200, "Log and Summary of Occupational Injuries and Illness" covering all entries for the current year and the past 24 months together with the yearly average work force data using the City Work Force Report, Section 00126. 18. Attach statements of background and experience of the principal members of your organization, including the officers, resident Superintendent /Engineer /Architect and names of other firms the principals are seeking prequalification or are prequalified with the City of Round Rock. 19. Is your firm bondable? Yes No. With whom? What limits? $ 20. Bank Credit available: $ 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 21. Submit a copy of your most recent detailed financial statement submitted to a bank for credit, and a current detailed financial statement together with other pertinent information as required by the City of Round Rock. 22. Submit a list of those subcontractors you plan to use on this project. 23. The undersigned hereby authorizes and requests any person, firm or corporation to furnish any information requested by the City of Round Rock in verification of the recitals comprising this Statement of Bidder's Qualifications. Dated at STATE OF COUNTY OF , 19 My Commission Expires , 19 this day of (Contractor) By Title being duly sworn deposes and says that he is of and that the answers to the foregoing questions and all statements therein contained are true and correct. Subscribed and sworn to before me this day of , 19 (Notary Public) 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 WAGE RATES PAID FOR HIGHWAY -HEAVY CONSTRUCTION AND PAVING UTILITIES INCIDENTAL TO GENERAL BUILDING CONSTRUCTION IN ZONE 2 INCLUDING WILLIAMSON COUNTY: Classification Hourly Rate Asphalt Heater Operator 5.40 Asphalt Raker 6.80 Carpenter 7.70 Carpenter Helper 6.10 Concrete Finisher (Paving) 7.95 Concrete Finisher Helper (Paving) 6.50 Concrete Finisher (Struct) 7.60 Concrete Finisher Helper (Struct) 5.90 Blaster 8.00 Blaster Helper 5.75 Electrician 9.90 Form Builder (Struct) 6.40 Form Builder Helper (Struct)5.30 Form Setter (Struct) 7.00 Form Setter Helper (Struct) 5.80 Form Setter (Paving & Curb) 6.00 Steel Worker (Struct) 15.00 Laborer (Common) 5.30 Laborer, Utility Man 6.20 Mechanic 9.25 Mechanic Helper 6.80 Mixer (16 CF or less) 8.50 Painter (Struct) 12.50 Painter Helper (Struct) 7.45 Pipelayer 6.00 Pipelayer Helper 5.30 Spreader Box Operator 6.35 Welder 9.50 Pipefitter 11.00 Pipefitter Helper 6.50 Form Loader 6.20 BIDDING AND CONTRACT REQUIREMENTS WAGE RATES HIGHWAY - HEAVY, UTILITIES AND INDUSTRIAL BRANCH CONSTRUCTION WAGE RATES JANUARY 8, 1988 Classification Hourly Rate Foundation Drill Operator (Crawler Mounted) 9.50 Foundation Drill Operator (Truck Mounted) 9.45 Front End Loader (2 1/2 CY & less) 7.00 Front End Loader (over 2 1/2 CY) 7.40 Motor Grader Operator (Fine Grade) 10.15 Motor Grader Operator 8.90 Roller, Steel Wheel (Plant Mix Pavements) 6.80 Roller, Steel Wheel (Other Flat Wheel or Tamping) 5.95 Roller, Pneumatic (Self Propelled) 5.90 Scrapers (17 CY and less) 6.40 Tractor (Crawler Type) 150 HP and less 7.00 Tractor (Crawler Type) Over 150 HP 7.40 Tractor (Pneumatic) 80 HP or less 7.75 Wagon Drill, Boring Machine or Post Hole Driller Op. 6.00 Reinforcing Steel Setter (Helper) 5.95 Reinforcing Steel Setter (Struct) 8.45 Side Boom 7.10 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Wage Rates Page 2 Classification Hourly Rate POWER EQUIPMENT OPERATORS: Asphalt Distributor Asphalt Paving Machine Broom or Sweeper Operator Bulldozer (150 HP & less) Bulldozer (Over 150 HP) Crane, Clamshell, Backhoe Derrick, Dragline, Shovel (1 1/2 CY & Over) 6.70 7.65 6.25 7.25 8.40 9.50 Classification Hourly Rate TRUCK DRIVERS: Single Axle, Light 5.95 Single Axle, Heavy 6.10 Tandem Axle or Semitrailer 6.30 Bid Item Quantity l Unit Item Description and Written Unit Price Unit Price Amount 104 -G 1,300 SY Removing Misc. Concrete, per Square $ aJ .Oa �]� °- __ Yard. for - rt 2f;-367: dollars a / LO cen 110 -C 3,800 CY Street Excavation, plan quantity, $ 44 / 7 ¢20 per Cubic Yard. for /`[7(�✓—, dollars and - ____ ix � cents 120 -B 250 LF Channel Excavation, per Linear Foot. $ 1 63 1n 2 ,S D.N °° L- ____ -- - for -17:31,-k dollars and ALP cents 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 City of Round Rock 221 East Main Street Round Rock, Texas 78664 Dear Sir: Series 0 Bidding and Contract Requirements Bid Section 00120 Date to —? 19 Xy The undersigned, in compliance with your invitation for bid construction of Tellabs Drive Extension for the City of Round Rock Texas, having examined Project Manual, Plans and Addendum, the site of the proposed work and being familiar with all of the conditions surrounding construction of the proposed project having conducted all inquiry, tests and investigation deemed necessary and proper purposes to furnish all labor, material and equipment and perform all work required for construction of the project in accordance with the Project Manual, Plans and Addendum for the following prices: SP /00120U Rev. 03/24/88 Page 1 Bid Bid Item Quantity Unit Item Description and Written Unit Price Unit Price Amount 210-A 9,085 SY Flexible Base, 11.5 -inch, per $ 3 - Z Jojp Square Yard. tor / //Taa dollars and S /xT7 cents 210 -C 1,615 SY Flexible Base, 8 -inch, per $ ../• Y k/.4 Square Yard. for 7741g dollars and NO cents 340 -8 7,835 SY 2 "Hot Mix Asphaltic Concrete Pavement, $ 3 7 2-4 SO. z S Type "D ", per Square Yard. for i2.. dollars and 4. cents 340 -C 1,530 SY 11" Hot Mix Asphaltic Concrete $ Z (moo J Z c 7 O /� // Pavement, Type "D ", per Square Yard. f or 'TWt dollars and 6/x7 Y cents 430 -B ,4,175 LE Concrete Curb & Gutter, per Linear $ 4 .---I ° _ � ° ' Foot. for Fo dollars and T - eLC cents 430 -D 433 170 5,985 LF Concrete Ribbon Curb, per Linear 0o $ �_ G8, Oc Foot. for Fc' dollars and �t, . cents SF Concrete Driveways, Type II, per Square Foot. � I ' I 2. Z m e7 / q 7° �'' for T.1� dollars and _NO cents 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 SPI00120U Rev- 03/24188 Page 2 Bid Bid Item Quantity Unit Item Description and Written Unit Price Unit Price Amount 436 650 SF Concrete Valley Gutters, per Square $ 2 ' / 50° Foot. for / 4 dollars and N/) cents 506 -M 3 Ea. Storm Sewer Manhole, 48" -Dia., $ / 50 °. m I 50tO' po Per Each. for 7 /Y /IUNo/7-99 dollars _/ and /yn cents 508 -H 1 Ea. Headwalls, Type "A ", 30" -Dia. Pipe, $ �50- o° CrSO,of• per Each. tor &Eft, N A7F7 dollars and /tlo cents 508 -J 2 Ea. Headwalls, Type "A ", 24" -Dia. Pipe, $ '' per Each. for F 6-21-7-/— !-{v N!) /Z dollars and /1/0 cents 508 -I5R 2 Ea. 5' Inlet, Recessed, per Each. $ :)-� g +' N 508_I10 508- 115 for 1lt y A(7'b dollars — and ALL rents 2 R 2 Ea. Ea. 10' Inlet, Recessed, per Each. 00 _ 2� �- for rDIJ721 1 ND2ldD dollars (/ oo and —_ —_ /LO cents 15' Inlet, Recessed, per Each. i i ,. / 2n„ 61 Ind 06 for i/4 ._ /J)j DR- C-1. _ dollars ,/... _ -._ 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 } SP /00120U Rev. 03/24/88 an Page 3 Bid Bid Item Quantity Unit Item Description and Written Unit Price Unit Price Amount 508 -I 1 Ea 10' Double Window Inlet, Recessed, $ / ��v /,6- .,a, DW -10R per Each. tor /' 6 f 7gi . J /VO/L -P dollars and /1/4-) - cents 508 -I 2 Ea 15' Double Window Inlet, Recessed, $ 4.4)endof 4 ��. - ° DW -15R per Each. for Tk5t9 I944 dollars and A60 cents 510 -A 60 LF Pipe, 12" -Dia., including Excavation $ S '' . 12" RCP and Backfill, per Linear Foot. for F/FP - dollars and /ln cants 510 -A 130 LF Pipe, 18" -Dia., including Excavation p $ /e -bc' 4 °� 18" RCF and Backfill, per Linear Foot. for /G,4 -aim dollars and lvr7 cents 510 -A 476 LF Pipe, 24" -Dia. including Excavation $ 0 3 e' e' /6) g112, 24" RCP and Backfill, per Linear Foot. for 77 r) ^'7W/Z dollars and /(/0 cents 510 -A 179 LF Pipe, 30" -Dia., including Excavation $ '30.00 537 ' 30" RCF and Backfill, per Linear Foot. for 77- )./AZf dollars and "JO cents 1 510 -A 13 "x22' RCAP 86 LF Pipe, 13 "x22" -Dia., including $ ,�.3. one pp 2 7 6..� �, . `°' Excavation and Backfill, per Linear Foot. n' for i ! tl_✓�lY- 4� ! ____ ... __.. dollars and -- N9 _- - - - --� - -- ._. ___ - -cents 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 SP /001200 Res. 03/24188 Page 4A Bid Addendum 1 Bid Item Quantity Unit Item Description and Written Unit Price Uni1 Price Amount 510 -D 1 LS Adjust 10" Waterline to clear _ 3 0 0. --° e Se-.- 30' Storm Sewer, per Lump•Sum. for 7ZJWA Y ^ ri✓6 /s 12/?4 P dollars and AM 510 -S _ 400 LF Trench Safety Systems, per t) 69 BOO. ° Linear Foot. for dollars and /Q cents 559 65 LF Concrete Box Culverts, 7' x 3', $ / per Linear Foot. Ju/ art" /-4 rr>✓2 far Fl/ Ti" 7 ' dollars and No cents 591 -E_ 200 SY Concrete Riprap (swale), 4 ", $ 25 en 4 00 �/ / [. /G. -• per Square Yard. for 7G,r (7F- r/f/46;6 dollars and /I/ cents 584 -A 6,800 SY Seeding for Erosion Control - Method $ d. 3( '7 B, per Square Yard. re for A(0 dollars and `�f-f /2TS' 56I/�Al cents 639 105 LF Rock Berm, per Linear Foot. ¢¢ S (�� Op i //,, O pp''4 D•=' for �G 6 l dollars and 41(? cents 642 250 LF Silt Fence, per Linear Foot. $ 4 Z� 3 /Z• s° for O/..(K dollars and NTY- f- cents 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 SP /00120U B Rev. 03/2418B Page 5A Bid Addendum 1 Bid Item Quantity Unit Item Description and Written Unit Price Unit Price Amount 670 200 LF Hay Bale Dike, per Linear Foot. $ Z ©Q Qom, pa for i I,JU dollars and A( CJ cents 706GP 41 LF 2 -Inch Galvanized Pipe Handrail, S ea a° `/ D 0 Oc per Linear Foot. for 71.450,/r`(' dollars and /Lip cents 824 7 Ea Traffic Signs, per Each. $ 155 C' '" 9 q ` 5 ' r2 /OA/ /-44A/!p/2H'/) Tj4- / 2r- 1 -7 - �1✓ dollars and )40 cents 860 -E 1 LS Pavement Marking Paint, per Lump Sum. l $ / SC' I, � 7_,...s for Tr.Jd rtv/,{!J//./BA Ir`! Y dollars and g° cents 508 -JB 1 Ea. ` Storm Sewer Junction Box, per Each. $ / 7.5 - O -y 7 :2. O° fo(L Sri t/B'N EErN 'Ai DV? AP ,c 4as F /F! r dollars and /�/O cents Total D Amount T N B/t 2� P N N Bid /{idA / WPA �,aJ7 !- /iiK - j 6d/f/ , rY' -ON& 4K /D ollars $ / qe �8 . words 'figures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 p 1 ",g (L. / 7 ' $ t G L 3c keY Aee-v/z6-/) ,iv t o G�c SP100120U3U Rev. 03/24/88 Page 6A Addendum 1 Bid Series 0 Bidding and Contract Requirements Bid Section 00120 Round Enclosed with this Bid is a Cashier's or Certified Check payable to the City of Rbok or Bid Bond in the amount of five percent (5 %) of the total amount bid (Dollard($ 1. It is agreed that in the event this proposal is accepted by the OWNER and the undersigned Bidder fails to execute the Contract and furnish prescribed performance and payment bonds within ten (10) days after notice of award of contract to him, the bid guaranty shall become the propertyof the OWNER, as liquidated damages, not as a penalty, but for delays and inconveniences or the OWNER may pursue any other action allowed by law. TIME OF FUNCTIONAL COMPLETION: The undersigned CONTRACTOR agrees to commence work within ten (10) days after written notice as specified in a written "Notice to Proceed" to be issued by the OWNER and to functionally complete construction of the improvements, as required by the Project Manual, Plans and Addendum for Tellabs Drive Extension (Contract Number 1 within 105 calendar days. The CONTRACTOR further agrees that should the CONTRACTOR fail to functionally complete the work within the number of days indicated in Bid or as subsequently adjusted byChange Order, he shall pay the liqui- dated damages for each consecutive day thereafter as provided below; unless the OWNER elects to pursue any other action allowed by law. LIQUIDATED DAMAGES: The CONTRACTOR understands and agrees that the timely completion of the described work is of the essence. The CONTRACTOR and OWNER further agree in applying liquidated damages that such damages cannot be precisely measured or that the ascertainment of actual damages would be unduly difficult. Therefore, the CONTRACTOR and the OWNER agree that for each and every calendar day the work or any portion thereof, remains functionally uncompleted after the functional completion date as established by the first sentence of the above para- graph, "Time of Functional Completion ", the CONTRACTOR shall pay, as agreed liquidated damages, the amount of Two Hundred and No /100 dollars (s 200.00 ) per calendar day and that such amount shall be deducted by the OWNER from any payment to the CONTRACTOR. The bidder acknowledges the liquidated damages and all conditions pertaining thereto as herein established and agrees to pay such damages if the work is not functionally complete on or before thetime established herein or as subsequently adjusted by Change Order. The undersigned acknowledges receipt of the following addenda: Addendum No. 1 dated De-T • / 7, /9X Received OcT• /� / Addendum No. 2 dated 7 7'o / /9S' Received X S Addendum NO 3 dated Received C =� ( t 2 I ICT 11 2 (t 1.-n2,v Contractor f � Secretary,* If Contractor is a Corporation By Title / ((0 0 7 /- Al /J / X 7S 7S3 (Seal) 'Copy of Corporate esolution and minutes with certificate of officer of Contrac [oras to authority of signatory to bind Contractor to be attached. End Address SPI00120U Rev. 03 /24/88 Page 7 Bid 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (Must be in an amount of at least 5% of the bid. If the bid is upon alternates, this bond must be for at least 5% of the highest amount for which the bidder offers to do any or all the work bid upon.) THE STATE OF TEXAS COUNTY OF WILLIAMSON BIDDER'S BOND City of Round Rock KNOW ALL MEN BY THESE PRESENTS: THAT WE, , as principal and the other subscriber hereto as Surety, do hereby acknowledge ourselves to be held and firmly bound to the City of Round Rock in the sum of Dollars. The condition of this obligation is that:- - WHEREAS, the said principal is submitting to the City of Round Rock his or its bid for the doing for the City of Round Rock of certain work and construction of which the following is a brief description to- wit: -- Approximately 1,900 Linear Feet of 40- foot -wide asphalt, curb and guttered roadway and related drainage improvements, for the extension of Tellabs Drive from Jeffrey Way to Greenhill Drive. NOW THEREFORE, if the said bidder is awarded the contract for such work, the said bidder will, within the time provided in the specifications, enter into a contract with the City of Round Rock therefor upon the form and to the purpose and intent provided in the specifications, and will furnish a good and sufficient construction surety bond executed by said bidder and one corporate surety organized under the laws of the State of Texas or authorized to do business in the State of Texas and having a fully paid up capital stock of not less than $100,000.00 and duly licensed and qualified by the Board of Insurance Commissioners of the State of Texas under the provisions of Articles 4969 to 4972, both inclusive, Revised Civil Statutes of the State of Texas, which bond shall be for an amount equal to 100 per cent of the contract price and shall be conditioned in accordance with the requirements stated in the specifications upon which such bid is being submitted. In the event said bidder is unable or fails to execute said contract for the work proposed to be done or is unable or fails to furnish said construction bond in the amount and condition as aforesaid, the undersigned principal and surety shall be liable to said City of Round Rock for the full amount of this obligation which is here and now agreed upon and admitted as the amount of the damages which will be suffered by the City of Round Rock on account of the failure of such bidder to so comply with the terms of his bid. Executed this day of , A.D. 19 PRINCIPAL By By Surety INSTRUCTIONS: The surety on the foregoing bid bond must be a corporate surety meeting all of the requirements therein fixed for the Surety upon the performance bond thereby contemplated. Unless such Surety appears on the United States Treasury Department's current list of approved surety companies, this bond must be accompanied by a certificate bearing date not more than five days prior to the date fixed for the opening of the bids to which such bond relates, by the Board of Insurance Commissioners of the State of Texas, certifying to the fact that such Surety is licensed and qualified under the provisions of the Texas Statutes referred to in the above bond. Bidders and their Surety may at their peril and risk furnish a bid bond upon some other form than the foregoing sheet itself; but any bid will be subject to being rejected if the bid bond is upon any other form than the foregoing and fails in any respect to comply with the City of Round Rock's requirements as stated in the project Specifications and General Conditions. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 . 1 1 1 STATE OF TEXAS COUNTY OF WILLIAMSON AGREEMENT THIS AGREEMENT, made and entered into this ..„ day of &br•m..c., , A.D. 19g D , by and between the City of Round Rock, Texas, a Municipal Corporation, home rule City and political Subdivision organized and eXisting under the laws of the State of Texas, acting through the City Manager or designee thereunto duly authorized to do so, Party of the First Part, hereinaftp� r termed OWNER, . and GAR., CoAkiviech Cs. ANC, of the City of Annt!N County of "1'} -Av.. 1 and State of - Texas , Party of the Second Part, "hereinafter termed Contractor. Witnesseth: That for and in consideration of the payments and agreements hereinafter mentioned, to be made and performed by the Party of the First Part (Owner), and under the conditions expressed in the bonds bearing even date herewith, the said Party of the Second Party (Contractor), hereby agrees with the said Party of the First Part (Owner) to commence and complete the construction of certain improvements described as follows: Approximately 1,900 linear feet of 40- foot -wide asphalt, curb & guttered, roadway, and related drainage improvements for extending Tellabs Drive from Jeffrey Way to Greenhill Drive. and all extra work in connection therewith, under the terms as stated in the Project Manual, Plans and Addendum; and at the Contractor's own proper cost and expense to furnish all the materials, supplies, machinery, equipment, tools, superintendence, labor, insurance, and other accessories and services necessary to complete the said construction, in accordance with the conditions and prices stated in the proposal attached hereto, and in accordance with the Project Manual, Plans and Addendum, which includes all maps, plats, blueprints and other drawings, and printed or written explanatory matter thereof, and the Specifications therefor, as prepared or approved by Baker - Aicklen & Associates, Inc. (9111 Jollyville Road, Suite 107, Austin, Texas), each of which has been identified by the endorsement of the Contractor and the Engineer /Architect thereon: all of which are made a part hereof by this reference and collectively evidence and constitute the entire contract. The Contractor hereby agrees to commence work within ten (10) days after the date contained in the Notice to Proceed given to the Contractor, and to complete same within 105 calendar days after the date of the written Notice to Proceed. Time is of the essence to this contract. The waiver by the Owner of any breach of this agreement must be in writing to be effective, and waiver of any breach shall not constitute waiver of any subsequent breach. The Owner agrees to pay the Contractor from the available fund for the performance of the contract in accordance with the Bid Proposal submitted therefor, subject to additions and deductions, as provided in the General Conditions of Agreement, and to make payments on account thereof as provided therein. Although drawn by Owner, this Contract shall, in the event of any disputes over its meaning or application, be interpreted fairly and reasonably, and neither more strongly for or against either party. In Witness Whereof, the parties to these presents have executed this Agreement in multiple originals in the year and day first above written. ATTEST: I ov a Law D to form partment End. Party of the First Part (Owner) City of Round Rock rill K6 ROBIArsom,mAyoR. // ecretary,* if Contractor is a Party of the Second Part Corporation or otherwise (Contract registered with the Secretary of the State Name of Signatory: Title of Signatory: *Copy of Corporate Resolution and minutes with certificate of officer of Contractor as to authority of signatory to bind Contractor to be attached. ANNUAL MEETING OF THE BOARD OF DIRECTORS On January 20, 1989, following their re- election to the Board, all the Directors of Garey Construction met waiving formal notice. Jack Garey proposed the following slate of officers for 1989: Jack Garey - President Pat Green - Vice President Louise Shank - Secretary & Treasurer This proposal was seconded by Louise Shank, voted upon by the Board and unanimously approved. Mr. Garey then discussed the outlook for the company over the next two years. He noted that while the company had a significant backlog of work which would carry it through 1989, it would be necessary to pick up twenty to twenty -five million dollars worth of work during the year to carry on into 1990. Mr. Garey expressed his opinion on expanding the type of work done by the company to include structures. He felt this move would make the company more competitive and allow it to more easily obtain twenty -five million dollars of work in 1989. Mr. Garey further noted that expanding into structures would not require a great deal of capital expenditures as very little equipment is used. After a short discussion on the above items by the members of the Board, Mr. Garey moved for adjournment. Said motion being seconded by Ms. Green and unanimously passed by the Board. Louise Shank, Secretary Treasurer 4 • 15 -1137 (sheet 1 of 4) —aart Graphics - Austin, Tease GD CORPORATION BY -LAWS 1 Adopted at Organizational Meeting of the Board of Directors Named in the Articles of Incorporation Held on the day of June the Incorporators. Section 1. The name of this corporation is GAREY CONSTRUCTION CO., INC. (SEAL) Corporation Seal , 19 BO , in Accordance with the Call of a Majority of ARTICLE I. Name GAREY CONSTRUCTION CO., INC. Location Section 2. The location of its registered office and principal place of business shall be at the following address: 1910 Sam Bass Road, Round Rock, Texas 78664 Section 3. The corporation seal of this corporation shall have inscribed thereon An impression of said seal is as follows: ARTICLE II. Shares and Shareholders Section 1. A statement of the aggregate number of shares for which this corporation shall have authority to issue and the par value of each of such shares is stated in Article 1V of its articles of incorporation and reference is made thereto for all purposes. Section 2. The shareholders of this corporation shall be those who appear on the books of the company as the holder of one or more shares of the shares of stock of this corporation for the purpose of determining the owners thereof for voting purposes and for the purpose of the payment of dividends. Section 3. All transfers of the shares of this corporation shall be made as required by Chapter 8, Investment Securities, Business and Commerce Code, as amended. Certificates of shares shall be surrendered and can- celled at the time of transfer, No transfer of shares shall be made within ten days next preceding the date ap- pointed for paying a dividend. Section 4. In the case of the loss or the destruction of a certificate of share, another may he issued in its place upon proof of such loss or destruction and the giving of a satisfactory bond of indemnity. The provisions of the Uniform Stock Transfer Act as to court order may be required. Section 5. All certificates of shares of the corporation, when issued, shall be signed by the President or a Vice - President and the Secretary or Assistant Secretary, and may be sealed with the seal of the corporation or a fac- simile thereof. Each certificate representing shares shall state upon the face thereof: (1) That the corporation is organized under the laws of this state; (2) The name of the person to whom issued; (3) The number and class of shares and designation of the series, if any, which such certificate represents; (4) The par value of each share represented by such certificate or a statement that the shares are without par value. No certificate shall be issued for any share until the consideration therefor fixed, as provided by law, has been fully paid. Section 0. Subscriptions for shares shall be paid in full at such time or in such installments and at such times as shall be determined by the Board of Directors. In case of default in the payment of any installment or call when such payment is due, the corporation may proceed to collect the amount due in the same manner 2 151137 (sheet 2 of 41 —Hart Graphics-Austin, Texas e as any debt due the corporation. The Board of Directors shall have the right to provide that failure to pay installments or calls shall work a forfeiture of a subscription and all amounts paid thereon. Provided, however, no forfeiture of a subscription shall be declared unless the amount due thereon shall remain unpaid for a period of twenty days after written demand has been made therefor. ARTICLE III. Meeting of Shareholders Section 1. The regular annual meeting of the shareholders of this corporation shall be held at the registered office of the corporation at 1910 Stitt sass wad, Found Suck. Twos a t 11.00 o'clock A m. on the 1st day of July In each year. Provided, however, that should said date in any year fall upon a legal holiday or a Sunday, then the regular annual meeting for that particular year shall be held on the next succeeding business or secular day. Section 2. Special meetings of the shareholders may be called by the President, the Board of Directors or the holders of not less than one -tenth of all of the shares entitled to vote at the meeting. Section 3. Written or printed notice stating the place, day and hour of the meeting, and in case of a special meeting, the purpose or purposes for which the meeting is called, shall be delivered not less than ten nor more than fifty days before the date of the meeting, either personally or by mail, by or at the direction of the President, the Secretary, or the officer or person calling the meeting to each shareholder of record entitled to vote at such meeting. Section 4. Faeh meeting of the shareholders shall be presided over by the President of the corporation, if present, or in his absence, the Vice - President, or in the absence of both the President and the Vice - President shall be organized by the election of a chairman and the secretary or assistant secretary of the corporation shall attend each meeting of the shareholders and act as secretary thereof. A majority of the shares represented in person or by proxy shall constitute a quorum. A less number, however, may adjourn any meeting (regular or special) from time to time until a quorum can be obtained. Section 5. All proxies shall be executed in writing by the shareholder or by his duly authorized attorney -in- fact. No proxy shall be valid after eleven months from date of Ps execution unless otherwise provided in the proxy. All proxies shall be filed with the secretary of the meeting before being voted upon. Section 6. Action may be taken without a meeting and /or by telephone in the manner and subject to the provisions of Art. 9.10, Texas Business Corporation Act, as amended. ARTICLE IV. Directors Section 1. The Directors of this corporation shall have the general management of the business and affairs of the corporation. Section 2. The corporation shall have, until otherwise provided by the by -laws, five directors. Section 3. A majority of the directors qualified and acting shall constitute a quorum. Section 4. Each director shall serve from his election for one year or until his successor shall have been duly elected. Section 5. Within a reasonable time after the election of each new Board of Directors, such newly elected directors shall convene in meeting for the purpose of election of officers, and for the purpose of such other business as may be desired by those present at such meeting. For the purpose of electing each officer, each director present shall be entitled to one vote. Such meeting of the directors shall be a general and regular meeting of the Board of Directors and any business of the corporation may be transacted thereat. Section 6. 1 h Board of Directors of this corporation may hold, without notice, special meetings at any time and at any place by unanimous consent. The President of the corporation or a majority of the qualified and acting directors may call a special meeting of the Board of Directors to be held at any time and at any place. Notice of each of such special meetings so called shall by given by the Secretary in either or by a combination of the following methods, to -wit: (a) Actual notice in person or by telephone to each director at least two days in advance of the date set for meeting. 15 -1137 (sheet 3 d 41 —Hart Graphics - Austin, Texas 43 3 (b) Notice by mail or telegraph sent to each director In time in regular course of business to reach each respective director at least two days prior to the date set for such meeting. In case of written or telegraphic notices, the same shall be sufficient if sent charges prepaid to the last address known to the secretary as shown by the records of the corporation of each respective director. (c) Notice of any particular meeting may be given to a part of the directors in one manner and to the remaining directors in a different manner. The directors may waive notice. Section 7. Any vacancy occurring in the Board of Directors may be filled by the affirmative vote of a majority of the remaining directors though less than a quorum of the Board of Directors. A director elected to fill a vacancy shall be elected for the unexpired term of his predecessor in office. Section 8. The president of the corporation shall act as Chairman of all meetings of the Board of Directors and in his absence those present at any meeting of the Board of Directors shall organize by the election of a Chairman Pro Tem. The secretary or assistant secretary of the corporation shall attend all meetings of the Board of Directors and act as Secretary thereof. ARTICLE V. Officers and Their Duties Section 1. The officers of this corporation shall be a President, a Vice - President, a Secretary and a Treasurer. Any two or more offices may be held by the same person except that the President and Secretary shall not be the same person. Section 2. The term of office of each officer shall be one year from his election but each officer shall serve until his successor shall have been duly elected. Section 3. Each new Board of Directors, at its first meeting, shall choose and elect from its number the President. Each such new Board of Directors, at its first meeting, shall choose and elect also the remaining officers of the corporation for the ensuing year, but it shall not be necessary for any of the latter officers to be members of the Board of Directors. Section 4. Each officer of the corporation shall have all of the rights, powers, duties and privileges usually incident to his respective office in an ordinary private corporation for profit. ARTICLE VI. Books, Records, Checks and Drafts Section 1. The general books, records and share certificate books of this corporation shall be kept at its registered office. Section 2. Any person who shall have been a shareholder of record for at least six months immediately pre- ceding his demand, or who shall be the holder of record of at Least 5% of all of the outstanding shares of the corporation, upon written demand, stating the purpose thereof, shall have the right to examine, in person or by agent or attorney, at any reasonable time or times, for any proper purpose, the corporation books, records, minutes and record of shareholders and shall be entitled to make extracts therefrom. Section 3. All checks, drafts, notes, bonds or other negotiable instruments or obligations of this corpora- tion shall be endorsed, signed or executed by the President, or in such manner as the Board of Directors may from time to time provide. ARTICLE VII. Amendments These by -laws may be amended at any time and from time to time, in the manner and as authorized by the laws of the 5 to of Texas. CARL SiS' TON C0. r INC. (f3L7AL) lttte3tsG• -"- ��� *� ren i rient 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 STATE OF TEXAS COUNTY OF 7i2UYZ.S Know All Men By These Presents: That G L77'15 G ©•,. • of the City of aw,(6 Lj� County sf ,7" S , and State of Aetkj as Principal, and 5i / .4 v� )7kaAry ,Lf& &J. a solvent company authorized unde the laws of the State of Texas o act as surety on bonds for principals, are , held and firmly bound unto pi /97hmlC (Owner), in the o pen 1 sum of Pilij4/./J,6 * -A,� F�yi U.S. Dollars ($ /W, / 2 , ° /, %�i; „ 1 i z, A , ,;., .S.) for the payment whereof, well and truly to be' made the said Principal and Surety bind themselves, and their heirs, administrators, executors, successors and assigns, j4,intly and severally, by these presents: The conditions of this Bond or such that, whereas, the Principal has entered into a certa contract with the Owner, dated,,the , d`'J-' day of / /! /iit;y 1 f 19 9; which Agreement is hereby referred to and made a part hereof as fully and to the same extend as if copied at length herein. Now, Therefore, The Condition of This Obligation Is Such, that if the said Principal shall faithfully perform said Agreement and shall in all respects duly and faithfully observe and perform all and singular the covenants, conditions and agreements in and by said contract agreed and covenanted by the Principal to be observed and performed, and according to the true intent and meaning of said Agreement hereto annexed, then this obligation shall he void; otherwise to remain in full force and effect: Provided, however, that this bond is executed pursuant to the provisions of Article 5160 of the Revised Civil Statutes of Texas as amended and all liabilities on this bond shall be determined in accordance with the provisions of said Article to the same extent as if it were copied at length herein. Surety, for value received, stipulates and agrees that no extension of time, shall in anywise affect its obligation on this bond, and it does hereby waive notice of any such extension of time. In Witness Whereof, the said Principal and Surety have signed and sealed this , 19 this day of Principal PERFORMANCE BOND Surety d -e4©.9 75 End. toirfit, -IA b2 s /4A/ By Title Address name and address of of the Resident Agent of Surety is: I -raft` /If�e19.e1 Note: A copy of the Surety Agent's "Power of Attorney" must be attached hereto. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 at., 385 Washington Street, St. Paul, Minnesota 55102 AUTHORITY NO. For verification of the authenticity of this Power of Attorney, you may telephone toll free 1. 800 - 328-2189 and ask for the Power of Attorney Clerk. Please refer to the Certificate of Authority No. and the named individual(s): GENERAL POWER OF ATTORNEY - CERTIFIED COPY 1301566 (Original oni eae at Home Office of Company. See Certification.) KNOW ALL MEN BY THESE PRESENTS: That St. Paul Fire and Marine Insurance Company, a corporation organized and existing under the laws of the State of Minnesota, having its principal office in the City of St. Paul, Minnesota, does hereby constitute and appoint: its true and lawful attorney(s) -in -fact to execute, seal and deliver for and on its behalf as surety, any and all bonds and undertakings, recognizances, contracts of indemnity and other writings obligatory in the nature thereof, which are or may be allowed, required or permitted by law, statute, rule, regulation, contract or otherwise, and the execution of all such instrument(s) in pursuance of these presents, shall be as binding upon said St. Paul Fire and Marine Insurance Company, as fully and amply, to all intents and purposes, as if the same had been duly executed and acknowledged by its regularly elected officers at its principal office. This Power of Attorney is executed, and may be certified to and may be revoked, pursuant to and by authority of Article V,- Section 6(C), of the By -Laws adopted by the Board of Directors of ST. PAUL FIRE AND MARINE INSURANCE COMPANY at a meeting called and held on the 23rd day of January, 1970, of which the following is a true transcript of said Section 6(C): "The President or any Vice President, Assistant Vice President, Secretary or Resident Secretary shall have power and authority (1) To appoint Attorneys -in -fact, and to authorize them to execute on behalf of the Company, and attach the Seal of the Company thereto, bonds and undertakings, recognizances, contracts of indemnity and other writings obligatory in the nature thereof, and (2) To appoint special Attorneys -in -fact, who are hereby authorized to certify to copies of any power -of- attorney issued in pursuance of this section and /or any of the By -Laws of the Company, and (3) To remove, at any time, any such Attorney -in -fact or Special Attorney -in -fact and revoke the authority given him:" Further, this Power of Attorney is signed and sealed by facsimile pursuant to resolution of the Board of Directors of said Company adopted at a meeting duly called and held on the 6th day of May, 1959, of which the following is a true excerpt: "Now therefore the signatures of such officers and the seal of the Company may be affixed to any such power of attorney or any certificate relating thereto by facsimile, and any such power of attorney or certificate bearing such facsimile signatures or facsimile seal shall be valid and binding upon the Company and any such power so executed and certified by facsimile signatures and facsimile seal shall be valid and binding upon the Company in the future with respect to any bond or undertaking to which it is attached." e N. MN RANc. On this 22nd day of November , 19 88 , before me came the individual who executed the preceding instrument, to me personally known, and, being by me duly sworn, said that he /she is the therein described and authorized officer of St. Paul Fire and Marine Insurance Company; that the seal affixed to said instrument is the Corporate Seal of said Company; that the said Corporate Seal and his /her signature were duly affixed by order of the Board of Directors of said Company. IN TESTIMONY WHEREOF, 1 have hereunto set my hand and affixed my Official Seal, at the city of St. Paul, Minnesota, the day and year first above written. CERTIFICATION I, the undersigned officer of St. Paul Fire and Marine Insurance Company, do hereby certify that I have compared the foregoing copy of the Power of Attorney and affidavit, and the copy of the Section of the By -Laws of said Company as set forth in said Power of Attorney, with the ORIGINALS ON FILE IN THE HOME OFFICE OF SAID COMPANY, and that the same are correct transcripts thereof, and of the whole of the said originals, and that the said Power of Attorney has not been revoked and is now in full force and effect. Hayes Pitts, Rose Marie Boriskie, James O- Schnell, Norman Rolling, Jack Wagner, individually, Austin, Texas NOT TO EXCEED IN PENALTY THE SUM OF 'TWENTY FIVE MILLION ($25,000,000) EACH 29650 Rev. 8 -88 Printed in U.S.A. IN TESTIMONY WHEREOF St. Paul Fire and Marine Insurance Company has caused this instrument to be signed and its corporate seal to be affixed by its authorized officer, this 1st day of March, A.D. 1984. ST. PAUL FIRE AND MARINE INSURANCE COMPANY STATE OF MINNESOTA). County of Ramsey I Vice President. MARY C. STEMPER, Notary Public, Ramsey County, MN My Commission Expires November 1, 1990 IN TESTIMONY WHEREOF, I have hereunto set my hand this 171 Y�L day of ` � 19 ' 9 Q ' / Secretary Only a certified copy of Power of Attorney bearing the Certificate of Authority No. printed in red on the upper right corner is binding. Photocopies, carbon copies or other reproductions of this document are invalid and not binding upon the Company. ANY INSTRUMENT ISSUED IN EXCESS OF THE PENALTY AMOUNT STATED ABOVE IS TOTALLY VOID AND WITHOUT ANY VALIDITY. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 STATE OF TEXAS COUNTY OF i{'44/5 Know All Men By These Presents: That g GG b., of the City of a/a6i � , County of • and State • of %, Gc5 , as principal, and ..51-. &al r� ' GGKW, n5 � 0 . a solvent corporation authorized under the laws of the State of Texas to act as sue on bonds for principals, are held and firmly bound unto (), 07c,1 i2C/ oek, (Owner), and all Subcontractors, workers, laborers, nfechanfcs and suppliers as their interests may appear, all of whom shall have the right to sue upon this bond in the penal sum of s ,, rig,, l % -r - / ,( U.S. Dollars ($ r /;� r � -- � , ,' -- U S for the payment whereof, well and "truly to be made the said Principal and Surety bind themselves, and thei heirs, administrators, executors, successors and assigns, jointly and s rally, by these presents: The conditions of this Bond or such that, whereas, the Principal -,has entered into a certain written contract with the Owner, dated the <''._ day of err'. r rid , 19 'C , which Agreement is hereby referred to and made a part hereof as fully and to the same extend as if copied at length herein. Principal PAYMENT BOND In Witness Whereof, the said Principal and Surety have signed and sealed this instrument this day of , 19 Now, Therefore, The Condition of This Obligation Is Such, that if the said Principal shall well and truly pay all Subcontractors, workers, laborers, mechanics and suppliers, all monies to them oweing by said Principals for Subcontracts, work, labor, equipment, supplies and materials done and furnished for the construction of the improvement of said Agreement, then this obligation shall be and become null and void: otherwise to remain in full force and effect: Provided, however, that this bond is executed pursuant to the provisions of Article 5160 of the Revised Civil Statutes of Texas as amended and all liabilities on this bond shall be determined in accordance with the provisions of said Article to the same extent as if it were copied at length herein. Surety, for value received, stipulates and agrees that no extension of time, shall in anywise affect its obligation on this bond, and it does hereby waive notice of any such extension of time. Surety By Tit e 4 y ��fl }mac Address po, /i,hw 7 X 'VW The name and address of the Resident Agent of Surety is: G � � 5 .SL14'LGd2 Note: A copy of the Surety Agent's "Power of Attorney" must be attached hereto. End. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 CERTIFICATE OF INSURANCE .DVERAGES -- IL CERTIFICATE HOLDER CANCELLATION 1/ $ 1,000 $ 1,000 $ 1,000 $ 50 I R /ACORD CORPORATION 1985 CO LT. C C THIS JS TO CERTIFY THAT POLICIES OF INSURANCE LISTED BELOW HAVE BEEN ISSUED TO THE INSURED NAMED ABOVE FOR THE POLICY PERIOD INDICATED, NOTWITHSTANDING ANY REQUIREMENT, TERM OR CONDITION OF ANY CONTRACT ^P OTHER DOCUMENT WITH RESPECT TO WHICH THIS CERTIFICATE MAY BE ISSUED OR MAY PERTAIN, THE INSURANCE AFFORDED BY THE POLICIES DESCRIBED HEREIN IS SUBJECT TO ALL THE TERMS, EXCLUSIONS, AND CONDI- TIONS OF SUCH POLICIES. OTHER TYPE OF INSURANCE GENERAL LIABILITY x COMMERCIAL GENERAL LIABILITY 1 CLAIMS MADE [xi OCCURRENCE OWNER S 8 CONTRACTORS PROTECTIVE AUTOMOBILE LIABILITY x ANY AUTO - ALL OWNED AUTOS x SCHEDULED AUTOS X HIRED AUTOS X NON -OWNED AUTOS GARAGE LIABILITY EXCESS LIABILITY X 1 OTHER THAN UMBRELLA FORM WORKERS' COMPENSATION AND EMPLOYERS' LIABILITY OCPL POLICY NUMBER b42NH8525 042NH8525 -1 642NH8525 -1 WVO4200666 TBD POLICY EFFECTIVE ,,,. *E IMMi'DD'YYI 12/31/89 12/31/89 12/31/89 12/31/89 POLICY E%PIRATIOL SATE (MM'ODV1') 12/31/90 12/31/90 12/31/90 12/31/90 GENERA. AGGREGATE $ PROD,IC'S- CDMP±OPS AGGREGATE PERSONA'. 8 AD1'ERTISING INJURY EACR OCCURRENCE FIRE DAMAGE (ANY ONE FIRE) MEDICAL EAPENSE (ANY ME PER508) C5'. IN BOOT 5 ACCIDENT POOP RTY DAM GE STATUTORY $ 500 $ $ ISSUE DATE (MM /DD/YY) 1 4 90 ALL LIMITS IN THOUSANDS $1 000. $ $ $ OGC( $ 3,000. I$ 3,000. AGGREGATE (EACH ACCIDENT) 500 ( DISEASE POLIC5 01 500 (DISEASE -EACH EMPLOYEE 1/4/90 12/31/90 500,000. Aggregate 500,000. Occurrence DESCRIPTION OF OPERATIONS( LOCATIONS / VEHICLES /RESTRICTIONS I SPECIAL ITEMS imits of liability are stated as of inception date of policy. Paid losses may have reduced available aggregate limits. PRODUCER INSURED Bill Pitts Insurance Agency P.O. Box 2291 Austin, Texas 78768 Garey Construction Co., Inc. 11607 North Lamar Austin, Texas 78753 City of Round Rock 221 E. Main St. Round Rock, Texas 78664 THIS CERTIFICATE IS ISSUED AS A MATTER OF INFORMATION ONLY AND CONFERS NO RIGHTS UPON THE CERTIFICATE HOLDER. THIS CERTIFICATE DOES NOT AMEND, EXTE140 OR ALTER THE COVERAGE AFFORDED BY THE POLICIES BELOW. COMPANY C LETTER St. Paul COMPANY D LETTER COMPANY E. LETTER COMPANIES AFFORDING COVERAGE COMPANY LETTER A St. Paul Lloyds COMPAM1'Y L ETTEP B St. Paul Mercury SHOULD ANY OF THE ABOVE DESCRIBED POLICIES BE CANCELLED BEFORE THE EX. PIRATION DATE THEREOF, THE ISSUING COMPANY WILL ENDEAVOR TO MAIL 10 DAYS WRITTEN NOTICE TO THE CERTIFICATE HOLDER NAMED TO THE LEFT, BUT FAILURE TO MAIL SUCH NOTICE SHALL IMPOSE NO OBLIGATION OR LIABILITY OF ANY KIND UPON THE COMPANY, ITS AGENTS OR REPRESENTATIVES. AUTHORIZED REPRESENTATIVE Bill Pitts Insurance Agency I, the purchaser named above, claim an exemption from payment of sales taxes for the purchase of taxable items described below or on the attached order or invoice: Description of items to be purchased, or on the attached order or invoice: Purchaser claims this exemption for the following reason: The City of Round Rock, Texas is a tax exempt municipality Tax exemption #74- 6017485 I understand that I will be liable for become due for failure to comply with and /or Metropolitan Transit Authority Comptroller rules regarding exempt will be determined by the price paid or the fair market rental value for the I understand that it is a misdemeanor to the seller for taxable items which will be used in a manner other than and that upon conviction may be fined not payment of Sales Tax which may the provisions of the State, City Sales and Use Tax Laws and purchases. Liability for the for the taxable items purchased period of time used. to give an Exemption Certificate I know, at the time of purchase, that expressed in this certificate more than 5500 per offense. tax A..e,..e. sign for the City here of Round Rocli nn. I O.te 1 )Roo (Rea 11 -91) 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 TEXAS SALES TAX EXEMPTION CERTIFICATE theme of Purchaser, firm or agency 1 Address (Street • number. P. O. Box or Route number) City, mare. el0 code Phone (Area code and number) NOTE. This certificate cannot be issued for the purchase, lease or rental of a motor Vehicle. THIS CERTIFICATE DOES NOT REQUIRE A .VUMBER TO BE VALID. Sales .!nd Use tax "Exemption Numbers" or "Tax Exempt' Numbers do not exist. This certificate should be furnished to the supplier Do not send the completed certificate to the C omptroller of Public Accounts. STATE OF TEXAS COUNTY OF IN TESTIMONY WHEREOF, witness A.D. 19 ATTEST: Secretary APPROVED: MAINTENANCE BOND KNOW ALL MEN BY THESE PRESENTS: THAT WE, As Principal, hereinafter called "Contractor ", and the other subscriber hereto as Surety, do hereby acknowledge ourselves to be held and firmly bound to the City of Round Rock in the sum of DOLLARS ($ ) for the payment of which sum well and truly to be made to the City of Round Rock, and its successors, the said Contractor and Surety do bind themselves, their successors and assigns jointly and severally. The conditions of this obligation are such that: WHEREAS, the said Contractor has entered into a contract in writing with the City of Round Rock, dated of even date herewith, for the construction of 1,900 linear feet of 40- foot -wide asphalt, curb and guttered roadway, and related drainage improvements for extending Tellabs Drive from Jeffrey Way to Greenhill Drive, all of such work to be done as set out in full in said contract and the plans and specifications therein referred to, and adopted by the City Council of Round Rock. NOW, THEREFORE, if the said Contractor shall repair, replace and restore any and all defects in, or damages to, said occasioned by, and resulting within two (2) years from and after the day of the acceptance of said work by said City of Round Rock from defects in materials furnished by, or workmanship of the Contractor, in performing the work covered by said contract, then this obligation shall become null and void, and shall be of no further force and effect; otherwise, the same is to remain in full force and effect. our hands Senior Assistant City Attorney The foregoing bond is approved and accepted this , A.D. 19 this CONTRACTOR By: SURETY Director of Public Works City of Round Rock, Texas day of day of E? � CO TIONS 01- SUCH Pu�wic�- c cp,� ^Eri -'I.E P PCI'ITCr . Apia ALL LIMITS IN THOUSANDS A, G GENERAL L LIABILITY $ €42NH8525 1 12/31/89 1 12/31/90 R $ 1 000 RRJC - ": CD�'R ^ °S AGGREGATE RRS ED...ar.D,, ",vo'o- $ $ 1,000 CLANS MADE i X D ^- uRFe.CE CC € O ■ - O E ,Rf 0.A1zC: IAr;t CM1: F■REI $ $ 50 MID -L=. Et ] 000 004 0E0000, $ $ 5 - M A X AUTOMOBILE L LIABILITY 5 5. . .; PRODUCER INSURED Bill Pitts Insurance Agency P.O. Box 2291 Austin, Texas 78768 Garey Construction Co., Inc. 11607 North Lamar Austin, Texas 78753 THIS CERTIFICATE 15 ISSUED AS A MATTER OF INFORMATION ONLY AND CONFERS THE CERTIFICATE HOLDER THIS EXTEND OR AL THE COVERAGE AFFORDED BY THE CERTIFICATE ESOBELOW. T AMEND, COMPANY A LETTER St. Paul Lloyds COMPANY B LETTER COMPANY TTER C LET LE COMPANY LET TER COMPANY E TER COMPANIES AFFORDING COVERAGE St. Paul Mercury St. Paul SSUE DATE (MM /DD/YY) 1 4 90 THIS IS TO CERTIFY THAT POLICIES OF INSURANCE LISTED BELOW HAVE BEEN ISSUED TO THE INSURED NAMED ABOVE FOR THE POLICY PERIOD INDICATED, UED M ANY REQUIREMENT, INSURANCE AFFORDED BY THE POLICIES DESCRIBED HEREIN IS SUBJECT TO ALL IHNPTHE TERMS, EXCLUSI E ONS AND CONDI BE ISSUED NOTWITHSTANDING - BE ISSUED O R MAY PERTAIN, DES OF OPERATIONS /LOCATIONS /VEHICLESiRESTRIC TIONSi SP ECI A L .TE., imits of liability are stated as of inception date of policy. Paid losses may have reduced a ' . available aggregate limits. The City of Round Rock is added as an additional insured and 10 days notice of cancellation will be mailed on the General Liability, Automobile Liability and ` - the Excess Um. r -_ • 1 • • - - '4' CERTIFICATE HOLDER = • :CANCELLATION City of ROund Rock 221 E. Main St. Round Rock, Texas 78664 SHOULD ANY OF THE ABOVE DESCRIBED POLICIES BE CANCELLED BEFORE THE EX. PIRATION DATE THEREOF. THE ISSUING COMPANY WILL ENDEAVOR TO MAIL 10 DAYS WRITTEN NOTICE TO THE CERTIFICATE HOLDER NAMED TO THE LEFT, BUT FAILURE TO MAIL SUCH NOTICE SHALL IMPOSE NO OBLIGATION OR LIABILITY OF ANY KIND UPON THE COMPANY. ITS AGENTS OR REPRESENTATIVES. AUTHORIZED REPRESENTATIVE Bill Pitts bsuraitce BIDDING AND CONTRACT REQUIREMENTS THIS CERTIFICATE IS ISSUED FOR THE DURATION OF THE PROJECT AS A MATTER OF INFORMATION ONLY AND CONFERS NO RIGHTS UPON THE CERTIFICATE HOLDER. THIS CERTIFICATE DOES NOT AMEND, EXTEND OR ALTER THE COVERAGE AFFORDED BY THE POLICIES LISTED BELOW. NAME AND ADDRESS OF AGENCY COMPANIES AFFORDING COVERAGES COMPANY A LETTER COMPANY B LETTER NAME AND ADDRESS OF INSURED COMPANY C LETTER COMPANY D LETTER COMPANY E LETTER This is to certify that policies of insurance listed below have been issued to the insured named above and are in force at this time. Not withstanding any requirement, term or condition of any contract or other document with respect to which this certificate may be issued or may pertain, the insurance afforded by the policies described herein is subject to all the terms, exclusions and conditions of such policies. LIMITS OF LIABILITY IN POLICY THOUSANDS (000) COMPANY TYPE OF POLICY EXPIRATION EACH LETTER INSURANCE NUMBER DATE OCCURRENCE AGGREGATE GENERAL LIABILITY Bodily $ $ Injury Comprehensive Form Property $ $ Premises- Damage Operations Explosions and Collapse Hazard Bodily $ $ Underground Injury and Hazard Property Products/Completed Damage Operations Hazard Combined Contractual Insurance Broad Form Property Damage Personal Injury $ Independent Contractors Personal Injury Cancellation: AUTOMOBILE LIABILITY Bodily Injury (Each Person) _ Comprehensive Form Bodily Injury _Owne (Each Accident) _Hire Non -Owned EXCESS LIABILITY _ Umbrella Form Other than Umbrella WORKERS' COMPENSATION AND EMPLOYER'S LIABILITY OTHER Builders Risk Description of Operations/ Locations /Vehicles PROJECT TITLE: C.I.P. No. PROJECT LOCATION: Property Damage $ Bodily Injury and Property Damage Combined Statutory $ (Each Account) The City of Round Rock is named as an additional insured under all insurance, other than Workmen's Compensation. No policies will be cancelled or reduced, restricted or limited until ten (10) days after the owner has received written notice as evidenced by return receipt of registered or certified letter. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 ' NAME AND ADDRESS OF CERTIFICATE HOLDER: DATE ISSUED: CITY OF ROUND ROCK End. REPRESENTATIVE AUTHORIZED CONDITIONS OF CONTRACT GENERAL CONDITIONS OF THE AGREEMENT CONTENTS Page 1. DEFINITIONS 1 2. GENERAL PROVISIONS 2 2.01 Engineer's Status and Authority 2 2.02 Right of engineer to Modify Methods and Equipment 3 2.03 Changes and Alterations 3 2.04 Damages 4 2.05 Losses from Natural Causes 4 2.06 Laws and Ordinances 4 2.07 Licenses, Permits. and Certificates 4 2.08 Royalties and Patents 4 2.09 Keeping of Plans and Specifications Accessible 4 2.10 Discrepancies and Omissions 4 2.11 Contractor's Understanding 5 2.12 Extra Work 5 2.13 Payment for Extra Work 5 2.14 Assignment and Subletting - 6 2.15 Subcontractors 6 2.16 Owner's Status 7 2.17 Completed Portions of Work 7 2.18 Materials 7 2.19 Receiving and Storage of Materials 7 2.20 "Or Equal" Clause 7 2.21 Completed Work 7 2.22 Materials Furnished by the Owner 7 2.23 Protection of Property 8 2.24 Shelters for Workmen and Materials 8 2.25 Sanitary Facilities 8 3. CONTRACTOR'S OBLIGATIONS AND RESPONSIBILITIES 8 3.01 Labor. Equipment, Materials and Construction Plant 8 3.02 Performance and Payment Bonds 8 3.03 Contractor's Ability to Perform 3.04 Superintendence and Inspection 9 3.05 Character of Employees 9 3.06 Contractor's Duty to Protect Persons and Property 10 3.07 Safety Codes 10 3.08 Barricades 10 3.09 Minimum Wages 10 3.10 Unsuitable Work or Materials - 10 3.11 No Waiver of Contractor's Obligation 11 3.12 Site Clean Up 11 3.13 Guarantee 11 (CONTENTS CONTINUED) 4. OWNER'S OBLIGATIONS AND RESPONSIBILITIES 4.01 Lines and Grades 4.02 Right of Entry 4.03 Owner's Inspectors 4.04 Collateral Work 4.05 Right -of -Way 4.06 Adequacy of Design 5. SCHEDULING AND PROGRESS OF WORK 5.01 Order and Prosecution of the Work 5.02 Rate of Progress 5.03 Sunday. Holiday. and Night Work 5.04 Hindrances and Delays 5.05 Extensions of Time 5.06 Liquidated Damages for Failure to Complete on Time Page 12 12 12 12 12 13 13 13 13 13 13 14 14 14 6. INDEMNITY 15 6.01 Contractor's Indemnity Provision 15 6.02 Workmen's Compensation Insurance 15 6.03 Comprehensive General Liability Insurance 16 6.04 Owner's Protective Insurance 16 6.05 Comprehensive Automobile Liability Insurance 16 6.06 Insurance Certificate 16 7. TERMINATION OF CONTRACT 17 7.01 Right of Owner to Terminate 17 7.02 Right of Contractor to Terminate 17 7.03 Removal of Equipment '7 8. ABANDONMENT OF CONTRACT BY CONTRACTOR 17 8.01 Notification of Contractor 17 8.02 Retention.of Contractor's Equipment and Materials by Owner 17 8.03 Methods of Completing the Work 18 8.04 Final Acceptance 19 8.05 Disposition of Contractor's Equipment 19 9. MEASUREMENT AND PAYMENT 19 9.01 Character of Measurements 19 9.02 Estimated vs. Actual Quantities 19 9.03 Payment 20 9.04 Monthly Estimates and Payments 20 9.05 Certificates of Completion 21 9.06 Final Estimate and Payment 21 9.07 Notarized Affidavit 21 9.08 Release of Liability 21 9.09 Contractor's Obligation 22 9.10 Payments Withheld 22 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 GENERAL CONDITIONS OF THE AGREEMENT 1. DEFINITIONS 1.01 Calendar Day. A calendar day shall be the 24 hour period from one midnight to the next consecutive midnight. 1.02 Contract Documents. The Contract Documents shall consist of the Notice to Contractors; Advertisement; thelnformation to Bidders; the Bid Proposal; Signed Agreement; Performance, Payment and Maintenance Bonds; the General Conditions of the Agreement; the Special Conditions of the Agreement; the Specifications; the Plans; the Standard Drawings; Addenda; and duly authorized Change Orders. The Contract Documents are complementary, and what is called for by any one shall be as binding as if called for by all. In case of conflict between any of the Contract Documents. priority of interpretation shall be in the following order: Signed Agreement. Performance, Payment and Maintenance Bonds, Addenda, Proposal, Special Conditions of the Agreement, Notice to Contractors, Specifications, Plans, and General Conditions of the Agreement. 1.03 Contractor. "Contractor" shall mean the business organization or individual named and designated in the Contract Agreement as the "Party of the Second Part ", who has entered into this contract for the performance of the work covered thereby, and its, his, or their duly authorized agents and other legal representatives. 1.04 Engineer. "Engineer" shall mean Baker - Aicklen & Assoc., Inc. or such other Engineer, supervisor, or inspector who has been designated, appointed. or otherwise employed or delegated by the Owner for this work, or their duly authorized agents. such agents acting within the scope of the particular duties entrusted to them in each case. 1.05 Extra Work. The term "extra work" as used in this contract shall be understood to mean and include all work that may be required by the Engineer or Owner to be done by the Contractor to accomplish any change, alteration. or addition to the work shown on the Plans, or reasonably implied by the Specifications, and not covered by the Contractor's Proposal. except as provided under "Changes and Alterations ", herein. 1.06 Owner. "Owner" shall mean The City of Round Rock. named and designated in the Agreement as the "Party of the First Part" acting through its duly authorized officers and agents. 1.07 Plans. "Plana" shall mean and include (a) all drawings prepared by the Owner as a basis for proposal. (b) all supplementary drawings furnished by the Engineer as and when required to clarify the intent and meaning of the drawings submitted by the Owner to the Contractor. and (c) drawings submitted by the Contractor to the Owner when and as approved by the Engineer. GC -1 1.08 Specifications. "Specifications" shall mean (a) all written descriptions. methods and instructions prepared by the Owner as a basis for proposals. (b) all supplementary written material furnished by the Engineer as and when required to clarify the intent or meaning of all written descriptions, methods and instructions submitted by the Owner to the Contractor. and (c) written descriptions submitted by the Contractor to the Owner when and as approved by the Engineer. 1.09 Subcontractor. "Subcontractor" shall mean and refer only to a business organization or individual having a direct contract with the Contractor for (a) performing a portion of the Contract work. or (b) furnishing material worked to a special design according to the Contract plans or specifications; it does not, however. include one who merely furnishes material not so worked. 1.10 Substantially Completed. The term "substantially completed" shall mean that the structure or facility has been made suitable for use and is in a conditiontoserve its intended purpose. but still may require minor miscellaneous work and adjustments. 1.11 Work. "Work" shall mean the work to be done and the equipment. supplies. material. and services to be furnished under the Contract unless some other meaning is indicated by the context. 1.12 Working Day. A "working day" is defined as any day not including Sundays or any legal holidays. in which weather or other conditions, not under the control of the Contractor. will permit construction of the principal units of the work for a continuous period of not less than seven (7) hours between 7:00 a.m. and 6:00 p.m. 1.13 Written Notice. "Written notice" shall be deemed to have been duly served if delivered in person to the individual or to a member of the firm or to an officer of the corporation for who it is intended, or if delivered at or sent by certified or registered mail to the last business address known to him who gives the notice. 2. GENERAL PROVISIONS 2.01 Engineer's Status and Authority. It is mutually agreed by and between the parties to this Contract that the Engineer shall have general supervision and direction of the work included herein. In order to prevent delays and disputes and to discourage litigation it is further agreed by and between the parties of this Contract that the Engineer shall in all cases determine the amounts and quantities of the several kinds of work which are to be paid for under the Contract; that he shall determine all questions in GC -2 relation to said work and the construction thereof. that be shall in all cases decide every question which may arise relative to the execution of the Contract on the part of the Contractor; that his decisions and findings shall be the conditions precedent to the right of the parties hereto to arbitration or to any action on the Contract and to the rights of the Contractor to receive any money under this Contract; provided. however. that should the Engineer render any decision or give any direction which in the opinion of either party hereto is not in accordance with the meaning and intent of this Contract. either party may file with the Engineer within 30 days a written objection to the decision or direction so rendered. It is the intent of this Agreement that there shall be no delay in the execution of the work. and the decision or directions of the. Engineer as rendered shall be promptly carried out. 2.02 Right of Engineer to Modify Methods and Equipment. If at any time the methods or equipment used by the contractor are found to be unsafe or inadequate to secure the quality of the work or the rate of progress required under this Contract, the Engineer may direct the Contractor in writing to increase their safety or improve their character and efficiency and to cease operations under this Contract until such direction is complied with. No claims shall be made against the Owner for damages caused by any delay resulting from such order. 2.03 Changes and Alterations. The Contractor agrees that the Owner, through the Engineer, may make such changes and alterations as the Owner may see fit in the line, grade, form, dimensions, plans, or materials for the work herein contemplated or any part thereof either before or after the beginning of .construction without affecting the validity of this Contract and the accompanying bonds. If such changes or alterations diminish the quantity of the work to be done, they shall not constitute the basis for a claim for damages or anticipated profits on the work that may be dispensed with. If they increase the amount of work and the increased work can fairly be classified under the specifications, such increase shall be paid for according to the quantity actually done and at the unit price established for such work under this contract; otherwise such work shall be paid for as provided under Section 2.12 'Extra Work ". In the event the Owner shall make such changes or alterations which will make useless any work already done or material already furnished or used in said work, then the Owner shall compensate the Contractor for any materials or labor so used, for any actual loss occasioned by such change, and for the actual expenses incurred in preparation for the work as originally planned. GC -3 2.04 Damages. The right of general supervision by the Owner shall not make the Contractor an agent of the Owner, and the liability of the Contractor for all damages to persons. firms. and corporations arising from the Contractor's execution of the work shall not be lessened because of such general supervision. the Contractor is an independent contractor in regard to work under this Contract, and as such is solely liable for all damages to any persons, firms. corporations. or their property as a result of the prosecution of the work. 2.05 Losses from Natural Causes. All loss or damage arising out of the nature of the work to be done or from the action of the elements or from any unforeseen circumstances in the prosecution of the work or from unusual obstructions or difficulties which may be encountered in the prosectuion of the work shall be sustained and borne . by the Contractor at his own cost and expense. 2.06 Laws and Ordinances. The Contractor shall at all times observe and comply with all Federal, State, and local laws. ordinances. rules and regulations which in any manner affect the Contract or the work and shall indemnify and save harmless the Owner against any claim arising from the violation of any such laws and ordinances whether by the Contractor or his employees or his subcontractors and their employees. 2.07 Licenses. Permits and Certificates. Except as hereinafter stipulated. all licenses, permits, certificates, etc. required for and in connection with the work to be performed under the provisions of these Contract Documents shall be secured by the Contractor at his own expense. In the event a building permit is required such permit will be obtained by the Owner at no cost to the Contractor. 2.08 Royalties and Patents. The Contractor shall protect and save harmless the Owner from all and every demand for damages. royalties. or fees on any patented invention used by him in connection with the work done or material furnished under this Contract; provided, however, that if any patented material. machinery, appliance, or invention is clearly specified in this Contract. the cost of procuring the rights of use and the legal release or indemnity shall be borne and paid by the Owner direct unless such cost is determined and directed to be included in the bid price at the time the Proposal is submitted. 2.09 Keeping of Plans and Specifications Accessible. The Engineer shall furnish the Contractor with five (5) sets of executed Plans and Specifications without expense to him, and the Contractor shall keep one copy of the same constantly accessible on the work, with the latest revisions noted thereon. 2.10 Discrepancies and Omissions. It is further agreed that it is the intent of this Contract that all work must be done and all material GC -4 must be furnished in accordance with the generally accepted practice, and in the event of any discrepancies between the separate contract documents. the priority of interpretation defined under "Contract Documents" shall govern. In the event that there is still any doubt as to the meaning and intent of any portion of the Contract. Specifications or Drawings, the Engineer shall define which is intended to apply to the work. 2.11 Contractor's Understanding. It is understood and agreed that the Contractor bas. by careful examination. satisfied himself as to the nature and location of the work. the conformation of the ground. the character. quality and quantity of the materials to be encountered, the character of equipment and facilities needed preliminary to and during the prosecution of the work. the general and local conditions, and all other matters which can in any way affect the work under this Contract. No verbal agreement or conversation with any officer. agent, or employee of the Owner, either before or after the execution of this Contract. shall affect or modify any of the terms or obligations herein contained. 2.12 Extra Work. The term "extra work" as used in this Contract shall be understood to mean and include all wort. that may be required by the Owner through the Engineer to be done by the Contractor to accomplish any change, alteration, or addition to the work shown by the Plans or reasonably implied by the Specifications and not covered by the Contractor's Proposal. except as provided in Section 2.03 — "Changes and Alterations ". It is agreed that the Contractor shall perform all extra work under the direction of the Engineer when presented with a written Change Order signed by the Engineer. No claim for extra work of any kind will be allowed unless ordered in writing by the Engineer. In case any orders or instructions, either oral or written, appear to the Contractor to involve extra work for which he should receive compensation. he shall make a written request to the Engineer for a written Change Order authorizing such extra work. Should a difference of opinion arise as to what does or does not constitute extra work or concerning the payment therefor and the Engineer insists upon its performance, the Contractor shall proceed with the work after making a written request for a written Change Order and shall keen an accurate account of the "actual field cost" thereof as provided under Method "C" below. 2.13 Payment for Extra Work. It is agreed that the compensation to be paid the Contractor for performing extra work shall be determined by one or more of the following methods: Method "A" — By agreed unit prices: Method "B" — By agreed lump sum: or GC -5 Method "C" — If neither Method "A" or Method "B" can be agreed upon before the extra work is commenced. then the Contractor shall be paid the "actual field coat" of the work plus 15 %. Where extra work is performed under Method "C ", the term "actual field cost" of such extra work is hereby defined to be and shall include: (a) the payroll cost for all workmen. such as foreman, mechanics, craftsmen, and laborers; (b) the cost of all materials and supplies not furnished by the Owner; (c) rental for all power — driven equipment at agreed —upon rates for the time actually employed or used in the performance of the extra work; (d) tranaporation charges necessarily incurred in connection with any equipment authorized by the Engineer for use on said extra work and which is not already on the job; (e) all power. fuel. lubricants. water. and similar operating expenses; (f) all incidental expenses incurred as a direct result of such extra work including sales or use taxes on materials. payroll taxes. and the additional premiums for construction bonds. workmen's compensation, public liability and property damage, and other insurance required by the Contract where the premiums therefore are based on payroll and material costs. The Engineer may direct the form in which accounts of the "actual field costs" shall be kept and may also specify in writing before the work commences the method of doing the work and the type and kind of machinery and equipment to be used; otherwise these matters shall be determined by the Contractor. Unless otherwise agreed upon. the prices for the use of machinery and equipment shall be incorporated in the written extra work Change Order. The 15% of the "actual field cost" to be paid the contractor shall cover and compensate him for his profit, overhead. and general superintendence. 2.14 Assignment and Subletting. The Contractor shall not assign or sublet the work or any part thereof without the previous written consent of the Owner. nor shall he assign. by power of attorney or otherwise. any of the money payable under this Contract unless by and with the consent of the Owner to be signified in like manner. If the Contractor assigns all or any part of any monies due or to become due under this Contract, the instrument of assignment shall contain a clause substantially to the effect that it is agreed that the right of the assignee in and to any monies due or to become due to the Contractor shall be subject to all prior liens of all persons, firms. and corporations for services rendered or materials supplied for the performance of the work called for in this Contract. 2.15 Subcontractors. The Contractor shall be as fully responsible to the Owner for the acts and omissions of his subcontractors and of persons either directly or indirectly employed by them as he is for the acts and omissions of persons directly employed by him. Should any subcontractor fail to perform the work undertaken by him in a satisfactory manner. his subcontract shall be immediately terminated by the Contractor upon written notice from the Owner. GC -6 2.16 Owner's Status. Nothing contained in this Contract shall create any contractual relation between any subcontractor and the Owner. 2.17 Completed Portions of Work. The Owner shall have the right to take possession of and to use any completed or partially completed portions of the work prior to completion of the entire work. but such use shall not constitute an acceptance of any of the work not completed in accordance with the Contract Documents. If the Engineer determines that taking possession of and using partially completed work substantially increases the cost of or delays construction. the Contractor shall be entitled to extra compensation or extension of time or both as determined by the Engineer. 2.18 Materials. All materials furnished by the Contractor shall be as required by the Plans and Specifications or as otherwise stipulated. The Contractor shall not start delivery of materials which he is to furnish until the Engineer has approved the source of supply of such materials. 2.19 Receiving and Storage of Materials. The contractor shall make arrangements for receiving and storing materials. The owner will not sign for or receive shipments of materials consigned to the Contractor. The Owner will not furnish storage space for materials except where the written permission of the Engineer is given. 2.20 "Or Equal" Clause. Whenever a material, product. or article is specified or shown on the Plans by using the name of the proprietary product or of a particular manufacturer or vendor and is followed by the term "or equal" the Contractor may submit a written request to the Engineer requesting approval of the use of a material, product, or article he feels is truly equal to the one specified. The Engineer will evaluate the request to determine if the material, product. or article is of equal substance and function and if it will perform identically the duties imposed by the general design. Written approval of an "or equal" material, product, or article must be obtained from the Engineer before it may be incorporated into the work as a substitute for that specified in the Contract Documents. 2.21 Completed Work. The Contractor shall maintain continuous adequate safeguards to protect all completed work from damage, loss, or the intrusion of foreign elements. 2.22 Materials Furnished by the Owner. The Contractor shall assume responsibility for and safeguard any and all materials supplied by the Owner against loss or injury. The provision shall extend to the taking of all necessary sanitary precautions to avoid contamination of such materials that must be maintained and incorporated into the work in a sanitary condition. GC -7 2.23 Protection of Property. The Contractor shall give reasonable notice to the owner or owners of public or private property and utilities when such property is liable to injury or damage through the performance of the work, and he shall make all necessary arrangements with such owner or owners relative to the removal and replacement or protection of such property or utilities. 3.02 The Contractor shall satisfactorily shore, support. and protect any and all structures. and all pipes. sewers, drains, conduits. and other facilities belonging to the Owner, and he shall be responsible for any damage resulting thereto. The Contractor shall not be entitled to any damages or extra pay as a result of any postponement. interference. or delay caused by any such structures and facilities being on the line of the work whether they are shown on the Plans or not. 2.24 Shelters for Workmen and Materials. The building or structures for housing men or the erection of tents or other forms of protection for workmen or materials will be permitted only as the Engineer shall authorize or direct. The sanitary conditions of the grounds in or about such structures shall at all times be maintained in a manner satisfactory to the Engineer. 2.25 Sanitary Facilities. Necessary sanitary toilet facilities for the use of all employees on the work shall be of a type complying with State and local sanitary regulations and shall be properly secluded from public observation. These facilities shall be constructed and maintained by the Contractor in such manner and at such points as shall be approved by the Engineer. Their use shall be strictly enforced. 3. CONTRACTOR'S OBLIGATIONS AND RESPONSIBILITIES 3.01 Labor. Equipment, Materials and Construction Plant. The Contractor shall provide all labor. tools, equipment, machinery. supplies and materials necessary for the prosecution and completion of this Contract where it is not specifically provided that the Owner shall furnish them. The Owner shall not be held responsible for the care. preservation. conservation. or protection of any material. tools. or machinery on any part of the work until it is finally completed and accepted. The Contractor shall maintain on the job at all times sufficient labor. material. and equipment to adequately prosecute the work. Performance and Payment Bonds. It is further agreed by the Parties to the Contract that the Contractor will execute separate performance and payment bonds. each in the sum of 100% of the total Contract price in standard forms for this purpose. guaranteeing GC -8 faithful performance of the work and the fulfillment of any guarantees required and further guaranteeing payment to all persons supplying labor and materials or furnishing him any equipment in the execution of the Contract. It is agreed that the Contract shall not be in effect until such performance and payment bonds are furnished and approved by the Owner. The cost of the premium for the performance and payment bonds shall be included in the price bid by the contractor for the work under this Contract. and no extra payment for such bonds will be made by the Owner. The surety company or companies underwriting the performance and payment bonds shall be acceptable according to the latest list of companies holding certificates of authority from the Secretary of the Treasury of the United States, shall be duly authorized to act under the laws of the State of Texas as Surety, and shall be approved by the Owner. 3.03 Contractor's Ability to Perform. Upon request by the Owner the Contractor shall furnish sufficient evidence of his ability to perform the work which is outlined in this document. This shall include an equipment inventory and records showing the satisfactory completion of projects of equal magnitude in the past. It shall be the prerogative of the Owner to terminate the Contract as outlined in Section -7 "Termination of Contract ", if job progress indicates that the Contractor lacks either appropriate experience or ability. 3.04 Superintendence and Inspection. The Contractor shall give personal attention to the faithful prosecution and completion of the Contract and shall keep a competent superintendent and any necessary assistants. all of whom are satisfactory to the Engineer, on the work continuously during its progress. The superintendent shall represent the Contractor in his absence, and all directions given to him by the Owner's representative shall be as binding as if given to the Contractor. In the event that the Contractor and the superintendent are both absent from the site of the work for prolonged periods of time the Engineer may order any or all work under this Contract to be stopped until the Contractor provides continuous and proper supervision of the work. Such stoppage shall not constitute a basis for any claim against the Owner for damages caused by delay for such work stoppages. 3.05 Character of Employees. The Contractor agrees to employ only orderly, competent, and skillful persons to do the work. and whenever the Engineer shall inform him that the work being accomplished is of sub — standard character by reason of carelessness, incompetence, or inexperience on the part of the GC -9 workers the installation of such work shall be immediately suspended and shall not be resumed until the Engineer is satisfied that the conditions causing such faulty work have been corrected. 3.06 Contractor's Duty to Protect Persons and Property. In the performance of this Contract, the Contractor shall protect the public and the Owner fully by taking reasonable precaution to safeguard persons from death or bodily injury and to safeguard property of any nature whatsoever from damage. Where any dangerous condition or nuisance exists in and around construction sites, equipment and supply storage areas, and other areas in any way connected with the performance of this Contract. the Contractor shall not create excavations. obstructions, or any dangerous condition or nuisance of any nature whatsoever in connection with the performance of this contract unless necessary to its performance. and in that event the Contractor shall provide and maintain at all times reasonable means of warning of any danger or nuisance created. The duties of the Contractor in this paragraph shall be nondelegable. and the Contractor's compliance with the specific recommendations and requirements of the Owner as to the means of warning shall not excuse the Contractor from the faithful performance of these duties should such recommendations and requirements not be adequate or reasonable under the circumstances. 3.07 Safety Codes. The Contractor shall comply with all applicable provisions of any Federal. State. and Municipal safety laws and building and construction codes. All machinery. equipment, and other physical hazards shall be guarded in accordance with the latest edition of the "Manual of Accident Prevention in Construction" of the Associated General Contractors of America except where incompatible with Federal. State, or Municipal laws or regulations. 3.08 Barricades. When barricades are used to satisfy safety requirements, such barricades shall be properly identified with the Contractor's name prominently stenciled on both sides of the barricades with letters at least 2 inches high. 3.09 Minimum Wages. All employees directly employed on the work shall be paid not less than the established prevailing wage scale for work of a similar character in this locality. A scale of prevailing wages is included in the Special Conditions of these Contract Documents. The Contractor shall pay not less than the general prevailing wages shown on said scale and shall keep accurate wages records accessible in accordance with Article 5159 of the Revised Civil Statutes of Texas. 3.10 Unsuitable Work or Materials. It is understood and agreed that if the work or any part thereof or any material furnished by the Contractor for use in the work or selected for the same shall be GC -10 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 deemed by the Engineer as unsuitable or not in conformity with the specifications, the Contractor shall, after receipt of written notice thereof from the Contracting Officer, forthwith remove such material and replace, rebuild, or otherwise remedy such work so that it shall be in full accordance with this Contract. Should the Contractor fail to initiate compliance with the above provision within 72 hours or should he fail to properly prosecute and complete correction of such faulty work, the Engineer may direct that the work be done by others and that the cost of the work be deducted from monies due the Contractor. 3.11 No Waiver of Contractor's Obligations. The Engineer, supervisor. or inspector shall have no power to waive the obligations of this Contract for the furnishing by the contractor of good material and of his performing good work as herein described and in full accordance with the plans and specifications. No failure or omission of the Engineer. supervisor, or inspector to condemn any defective work or material shall release the Contractor from the obligation to at once tear out, remove, and properly replace the same at any time prior to final acceptance upon the discovery of said defective work or material; provided, however that the Engineer. supervisor. or inspector shall upon request of the contractor inspect and accept or reject any material furnished, and once the material has been accepted by the Engineer. supervisor, or inspector such acceptance shall be binding on the Owner unless it can be clearly shown that such material furnished was not as represented and does not meet with the specifications for the work. Any questioned work may be ordered taken up or removed for re examination by the Engineer prior to final acceptance, and if found not in accordance with the specifications for said work. all expense of removing, re examination, and replacement shall be borne by the Contractor; otherwise the expense thus incurred shall be allowed as "Extra Work" and shall be paid for by the Owner. 3.12 Site Clean Up. The Contractor shall not allow the site of the work to become littered with trash and waste material, but shall mainrain the site in a neat and orderly condition throughout the construction period. The Engineer shall have the right to determine what is waste material or rubbish and the manner and place of disposal. On or before the completion of the work the Contractor shall, without charge therefor. carefully clean out all pits, pipes, chambers. or conduits, shall tear down and remove all temporary structures built by him, shall remove all rubbish of every kind from the tracts or grounds which he has occupied, and shall leave them in a condition satisfactory to the Engineer. 3.13 Guarantee. During a period of 12 months from and after the date of the final acceptance by the Owner of the work embraced by this Contract, the Contractor shall make all needed repairs arising out GC -11 of defective workmanship or materials. or both, which in the judgement of the Owner shall become necessary during such period. If within 10 days after the mailing of a notice in writing to the Contractor or his agent the said Contractor shall neglect to make or to undertake with due diligence the aforesaid repairs. the Owner is hereby authorized to make such repairs at the Contractor's expense; provided. however. that in case of an emergency where. in the judgement of the Owner, delay would cause serious loss or damage. repairs may be made without notice being sent to the Contractor. and the Contractor shall pay the cost thereof. 4. OWNER'S OBLIGATIONS AND RESPONSIBILITIES 4.01 Lines and Grades. All necessary lines and grades shall be furnished by the Engineer. Whenever necessary, work shall be suspended to permit performance of this work. but such suspension will be as brief as practicable. and the Contractor shall be allowed no extra compensation therefore The Contractor shall give the Engineer ample notice of the time and place where lines and grades will be needed. All stakes. marks, etc. shall be carefully preserved by the Contractor. and in case of careless destruction or removal by him or his employees such stakes. marks, etc. shall be replaced by the Engineer at the Contractor's expense. 4.02 Right of Entry. The Owner reserves the right for its personnel or its agents to enter the property or location on which the work herein contracted is being constructed or installed for the purpose of supervising a-:d inspecting the work or for the purpose of constructing or installing such collateral work as the Owner may desire. 4.03 Owner's Inspectors. It is agreed by the Contractor that the Owner shall appoint such Engineer. supervisors. or inspectors as the said Owner may deem necessary to inspect the material furnished and the work done under this Contract. to see that the said material is furnished. and to see that said work is done in accordance with the plans and specifications therefor. The Contractor shall furnish all reasonable aid and assistance required by the Engineer, supervisors, or inspectors for the proper inspection and examination of the work and all parts thereof. The Contractor shall regard and comply with the directions and instructions of the Engineer, supervisors. or inspectors so appointed when such directions and instructions are consistent with the obligations of this Contract. 4.04 Collateral Work. The Owner reserves the right to provide all labor and material essential to the completion of work that is not included in this Contract either by a separate contract or otherwise. Any collateral work shall be prosecuted in such a manner that it will not damage the Contractor nor delay the progress of the work being accomplished under this Contract. The respective rights of and operations of the various interests involved shall be established and coordinated by the Engineer. GC -12 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 4.05 Right—of—Way. Easements across private property and lands needed for construction under this contract will be provided by the Owner. 4.05 Adequacy of Design. It is agreed that the Owner shall be responsible for the adequacy of the design, sufficiency of the Contract Documents, the safety of the structure and practicability of the operations of the completed project; provided the Contractor has complied with the requirements of the said Contract Documents, all approved modifications thereof. and additions and alterations thereto approved in writing by the Owner. The burden of proof of such compliance shall be upon the Contractor to show that be has complied with the said requirements of the Contract Documents. approved modifications thereof and all approved additions and alterations thereto. 5. SCHEDULING AND PROGRESS OF WORK 5.01 Order and Prosecution of the Work. It is the meaning and intent of this Contract, unless otherwise herein specifically provided. that the Contractor shall be allowed to prosecute his work at such times and seasons in such order of precedence and in such manner as shall be most conducive to economy of construction; provided however. that the order and time of prosecution shall be such that the work shall be completed as a whole or in part in accordance with this Contract within the time of completion hereafter designated; provided also that the Engineer may direct the time and manner of constructing any part or parts of the work when in his opinion such should be given priority to lessen the probability of danger to the public or to anticipate seasonal hazards from the elements or to coordinate with other work being done for or by the Owner. 5.02 Rate of Progress. The Contractor shall give the Engineer full information in advance as to his plans for carrying on any part of the work. If at any time prior to the start or during the progress of the work any part of the Contractor's plant or equipment or any of his methods of executing the work appear to the Engineer to be unsafe, inefficient, or inadequate to insure the required quality or rate of progress of the work, the Engineer may order the Contractor to increase or improve his facilities or methods. and the Contractor shall promptly comply with such orders; but neither compliance with such orders; failure to comply will result in placing Contractor in abandonment per Section 8 "Abandonment of Contract by Contractor "; but neither compliance with such orders nor failure of the Engineer to issue such orders shall release the Contractor from his obligation to secure the degreee of safety, the quality of work. and the rate of progress required by this Contractor. The Contractor alone shall be responsible for the safety, adequacy. and efficiency of his plant. equipment, and methods. 5.03 Sunday. Holiday. and Night Work. Except in connection with the care. maintenance. or protection of equipment or of work already GC -13 done, no work shall be done between the hours of 6:00 p.m. and 7:00 a.m. or on Sundays or legal holidays without written consent of the Engineer. 5.04 Hindrances and Delays. No claims shall be made by the Contractor for damages. hindrances. or delays from any cause during the progress of any portion of the work embraced by this Contract except where the work is stopped by order of the Owner. If the Owner stops the work for just cause because the Contractor is not complying with the plans and specifications or the intent thereof. the Contractor shall have no claim for damages. hindrances. or delays. However, if the Owner stops the work for any other reason. the Contractor shall be entitled to reimbursement paid by the Owner fcr such expenses actually incurred which in the judgement of the Engineer occurred as a result of the work stoppage. Should delays repeatedly occur due to the Contractor's failure to provide adequate plant, equipment. or personnel. or where the Engineer determines that unreasonable inconvenience to the public is due to such failure. the Contractor's operations shall be suspended until he shall have provided adequate plant. equipment. and personnel to properly resume and continually prosecute the work. 5.05 Extensions of Time. Should the Contractor be delayed in the final completion of the work by any act or neglect of the Owner or Engineer. or of any employee of either. or by any other contractor employed by the Owner. or by strikes, fire or other cause or causes outside of and beyond the control of the Contractor and which the Engineer determines could have been neither anticipated nor avoided. then an extension of time sufficient to compensate for the delay as determined by the Engineer shall be granted by the Owner; provided. however. that the Contractor shall give the Owner prompt notice in writing of the cause of delay in each case. Extensions of time will not be granted for delays caused by unfavorable weather, unsuitable ground conditions or inadequate construction force. 5.06 Liquidated Damages for Failure to Complete on Time. The Contractor agrees that time is of the essence of this Contract and that the definite value of damages which would result from delay would be incapable of ascertainment and uncertain, so that for each day of delay beyond the number of days herein agreed upon for the completion of the work herein specified and contracted for. after due allowance for such extension of time as is provided for under the provisions of the preceding paragraph. the Owner may withhold permanently from the Contractor's total compensation. not as a penalty but as liquidated damages. the sum per day given in the following schedule: GC -14 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Amount of Liquidated Amount of Contract Damages Per Day Less than $ 5.000.00 $ 5.001.00 to $ 15,000.00 15,001.00 to 25,000.00 25,001.00 to 50,000.00 50,001.00 to 100,000.00 100,001.00 to 500,000.00 500,001.00 to 1.000,000.00 1,000,001.00 to 2.000,000.00 2,000.001.00 to 5,000,000.00 $ 30.00 35.00 40.00 50.00 70.00 200, DO__ 300.00 400.00 500.00 INDEMNITY 6.01 Contractor's Indemnity Provision. To protect the Owner from the Contractor's failure to perform any of the foregoing duties or any of the terms of this Contract. the Contractor shall indemnify and save harmless the owner and the Owner's agents and employees from all losses. damages, judgements, decrees. and expenses or costs of any nature whatsoever arising out of or in any way connected with any claims or actions at law or in equity brought against the Owner and the Owner's agents and employees for the death or injury to persons or for damage to property caused, or allegedly caused, by any willful acts, negligence, nuisance, or breach of any term or condition of this Contract by the Contractor, his agents, servants, subcontractors, or employees. The Contractor shall furthermore indemnify and save harmless the Owner and the Owner's agents and employees from all demands of subcontractors. workers, material persons. or suppliers of machinery and parts thereof, equipment. power tools, and supplies incurred in connection with work to be performed under this Contract. Property of any description, including property of the Owner. which shall be damaged in the performance of this Contract by the Contractor, his agents. employees, subcontractors or their employees and subcontractors shall be restored to its condition prior to damage by the Contractor at the Contractor's expense. 6.02 Workmen's Compensation Insurance. The Contractor agrees to comply with the Workmen's Compensation Act of the State of Texas. and to pay or cause to be paid all compensation, medical or other benefits, which may become due or payable thereunder, and to protect and indemnify the Owner and the Owner's agents and employees from and against any and all liabilities by reason of accidental injury, disease or death sustained by subcontractor's employees. The Contractor shall furnish the owner with a certificate from the Industrial Accident Board evidencing the Contractor's and subcontractor's compliance with said statute. GC -15 6.03 Comprehensive General Liability Insurance. The Contractor shall provide and maintain during the life of this Contract and until all work under said Contract has been completed and accepted by the Owner. a Comprehensive General Liability insurance policy, said policy and the issuing carrier approved by the Owner, which specifically insures the contractual liability of the Contractor assumed under Paragraph 6.01 above entitled "Contractor's Indemnity Provision ". The liability coverage under this policy shall cover Independent Contractors. Liability limits for the Comprehensive General Liability insurance coverage under this policy shall not be less than the following: Bodily Injury Property Damage $250,000 each person $500,000 each accident $ 50,000 each accident $100,000 aggregate 6.04 Owner's Protective Insurance. The Contractor shall provide and maintain during the life of this Contract and until all work under said Contract has been completed and accepted by the Owner. an Owner's and Contractor's Protective Policy which co- insures the Owner and the Owner's agents and employees with the same Comprehensive General Liability coverage as described in 6.03 above entitled "Comprehensive General Liability Insurance ". 6.05 Comprehensive Automobile Liability Insurance. The Contractor shall provide and maintain during the life of this Contract and until all work under said Contract has been completed and accepted by the Owner, a Comprehensive Automobile Liability insurance policy. said policy and issuing carrier approved by the Owner. covering the operation on or off the site of the work of all motor vehicles licensed for highway use. whether they are owned. non- owned. or hired by the Contractor, in which shall specifically insure contractual liability of the Contractor assumed under the above Paragraph 6.01 entitled "Contractor's Indemnity Provision ". The liability limits for the Comprehensive Automobile Liability insurance coverage shall not be less than the following: Bodily Injury 8250,000 each person $500,000 each accident Property Damage 8100,000 each accident 6.06 Insurance Certificate. In connection with the insurance coverage set out in sections 6.02, 6.03. 6.04 and 6.05 above. the Contractor shall furnish the Owner with a certificate verifying said insurance. Said certificate shall state that the Owner shall be given 10 days advance written notice before any provisions of the policies are changed or in the event said policies shall be GC -I6 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 7. TERMINATION OF CONTRACT 7.01 Right of Owner to Terminate. If the Contractor should be guilty of substantial violation of the Contract or any provision thereof. the Owner. upon certification by the Engineer as to the nature and extent of such violation. may without prejudice to any other resources or remedy give the Contractor written notice of termination of the employment of the Contractor 10 days subsequent to such notice. Immediately following such date the Owner may take possession of the site of the work and all material, equipment, tools. and appliances thereon and may finish the work in accordance with the provisions of Section 8 "Abandonment of Contract by Contractor ". of these General Conditions. 7.02 Right of Contractor to Terminate. If work should be stcpped by order of any public authority or court through no act or fault of the Contractor for a period of three (3) months or if the Owner should substantially fail to perform the provisions of the Contract with regard to owner's obligations to the Contractor. then the Contractor may. upon ten (10) days written notice to the Owner. terminate this Contract and recover from the Owner payment for all completed work. 7.03 Removal of Equipment. In the event that the Contract should be terminated for any reason whatsoever, the Owner may request the Contractor in writing to remove any or all of his equipment. tools, and supplies. and the Contractor shall comply with the request within ten (10) days after receipt of the notice. Should he fail to do so within ten (10) days after receipt of such notice, the Owner shall have the right to remove such equipment and supplies at the expense of the Contractor and to place such equipment. tools and supplies in storage at the risk and expense of the Contractor. 8. ABANDONMENT OF CONTRACT BY CONTRACTOR 8.01 Notification of Contrector. If the Contractor should abandon and fail to refuse to resume work within ten (10) days after written notification from the Owner or the Engineer or if the Contractor fails to comply with the orders of the Engineer when such orders are consistent with this Contract or with the specifications hereto attached, then the Contractor shall be deemed as having abandoned the Contract. In such event the Surety on the bond shall be notified in writing and directed to complete the work, and a copy of said notice shall be delivered to the Contractor. 8.02 cancelled. This Certificate of Insurance shall be provided to the Owner prior to starting any construction work in connection with this Contract. Retention of Contractor's Equipment and Materials by Owner. After receiving said notice of abandonment the Contractor shall not GC -17 remove from the work any machinery, equipment, tools, materials, or supplies then on the job, but the same together with any materials and equipment under contract for the work may be held for uee on the work by the Owner or the Surety on the performance bond or another contractor in completion of the work; and the Contractor shall not receive any rental or credit therefor except when used in connection with extra work where credit shall be allowed as provided for under Section 2.12 entitled "Extra Work ", it being understood that the use of such equipment and materials will ultimately reduce the cost to complete the work and will be reflected in the final settlement. 8.03 Methods of Completing the Work. If the Surety should fail to commence compliance with the notice for completion hereinbefore provided within ten (10) days after service of such notice. then the Owner may provide for completion of the work in either of the following elective manners: a. The Owner may thereupon employ such force of workers and use such machinery, equipment, tools, materials. and supplies as said Owner may deem necessary to complete the work and charge the expense of such labor. machinery, equipment. tools. materials, and supplies to said Contractor, and the expense so charged shall be deducted and paid by the Owner out of such monies as may be due or that may thereafter at any time become due to the Contractor under and by virtue of this Contract. In case such expense is less than the sum which would have been payable under this Contract if the same had been completed by the Contractor, then said Contractor shall receive the difference. In case such expense is greater than the sum which would have been payable under this Contract if the same had been completed by said Contractor, then the Contractor or his Surety shall pay the amount of such excess to the Owner. b. The Owner under sealed bids, after fourteen (14) days notice published two or more times in a newspaper having a general circulation in the county of location of the work. may let the contract for the completion of the work under substantially the same terms and conditions which are provided in this Contract. In case of any increase in cost to the Owner under the new contract as compared to what would have been the cost under this Contract such increase shall be charged to the Contractor, and the Surety shall be and remain bound therefor. However, should the cost to complete any such new contract prove to be less than what would have been the cost to complete under this Contract. the Contractor or his Surety shall be credited therewith. GC -18 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 8.04 Final Acceptance. When the work has been completed. the Contractor and his Surety shall be so notified and a contract Completion Certificate as hereinafter provided shall be issued. A complete itemized statement of the Contract accounts certified by the Engineer as being correct shall then be prepared and delivered to the Contractor and his Surety, whereupon the Contractor. his Surety or the Owner, as the case may be, shall pay the balance due as reflected by said statement within fifteen (15) days after the date of such Contract Completion Certificate. 8.05 Disposition of Contractor's Equipment. In the event the statement of accounts shows that the cost to complete the work is less than that which would have been the cost to the Owner had the work been completed by the Contractor under the terms of this Contract or Shen the Contractor or his Surety pay the balance shown to be due by the to the owner. then all machinery. equipment, tools. materials, or supplies left on the site of the work shall be turned over to the Contractor or his Surety. Should the cost to complete the work exceed the contract price, and the Contractor or his Surety fail to pay the amount due, the owner within the time designated hereinabove, and there remains any machinery. equipment. tools. materials, or supplies on the site of the work. notice thereof together with an itemized list of such equipment and materials shall be mailed to the Contractor and his Surety at the respective addresses designated in this Contract; provided. however. that actual written notice given in any manner will satisfy this condition. After mailing or other giving of such notice, such property shall be held by the Owner at the risk of the Contractor and his Surety subject only to the duty of the Owner to exercise ordinary care to protect such property. After fifteen. (15) days from the date of said notice, the Owner may sell such machinery, equipment, tools. materials. or supplies and apply the net sum derived from such sale to the credit of the Contractor and his Surety. Such sale may be made at either public or private sale, with or without notice, as the Owner may elect. The Owner shall release any machinery, equipment. tools, materials, or supplies which remain on the work and belong to persons other than the Contractor or his Surety to their proper owners. 9. MEASUREMENT AND PAYMENT 9.01 Character of Measurements. No extra or customary measurements of any kind will be allowed. but the actual length. area. solid contents, number, and weight only shall be considered unless otherwise specifically provided. 9.02 Estimated vs. Actual Quantities. Any and all estimated quantities stipulated in the proposal form under unit price items are approximate and are to be used only (a) as a basis for estimating the probable cost of the work and (b) for the purpose of comparing GC -19 the proposals submitted for the work. It is understood and agreed that the actual amounts of work done and materials furnished under unit price items may differ from such estimated quantities and that the basis of payment for such work and materials shall be for the actual amount of such work done and the actual quantity of materials furnished. The Contractor agrees that he will ma1..e no claim for damages, anticipated profits. or otherwise on account of any difference between the amounts of work actually performed and materials actually furnished and the amounts estimated therefor in the proposal or other Contract Documents; provided. however, that if the actual quantity of any item should become as much as 25 percent more than or 25 percent less than the estimated or contemplated quantity for such items. then either party to this Contract shall be entitled upon demand to a revised consideration on the portion of the work above or below 25 percent of the estimated quantity prior to initiating work or furnishing materials for the overrun or underrun quantities. Such revised consideration shall be determined by agreement between the parties or otherwise by the terms of this Contract as provided under Section 2.12 entitled "Extra Work ". 9.03 Payment. In consideration of the furnishing of all the necessary labor, equipment. and material and the completion of all work by the Contractor. and on the completion of all work and the delivery of all material embraced in this Contract in full conformity with the specifications and stipulations contained herein, the Owner agrees to pay the Contractor the amounts set forth in the Proposal attached hereto which has been made a part of this Contract. The Contractor hereby agrees to receive such amounts in full payment for furnishing all material and all labor required for the aforesaid work, for all expense incurred by him. and for well and truly performing the same and the whole thereof in the manner and according to this Contract. the attached specifications, and requirements of the Engineer. 9.04 Monthly Estimates and Payments. On or about the 25th day of each month the Engineer will make an approximate estimate of the value of work done in conformity with the plans and specifications during the said calendar month. The Contractor shall furnish to the Engineer such detailed information as he may request to aid him as a guide in the preparation of monthly estimates. After each such estimate shall have been approved by the Owner. the Owner shall pay to the Contractor 90 percent of the amount of such estimated sum on or before the 15th day of the next month. It is understood, however, that in case the whole work is near to completion and some unexpected or unusual delay occurs due to no fault or neglect on the part of the Contractor, the Owner may, upon written recommendation of the Engineer, pay a reasonable and equitable portion of the retained percentage to the Contractor. GC -20 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 9.05 Certificates of Completion. Within 10 days after the Contractor has given the Engineer notice that the work has been completed, the Engineer shall inspect the work and satisfy himself by examination and test that the work has been finally and fully completed in accordance with the plans, specifications and Contract. If so, the Engineer shall issue a Contract Completion Certificate to the Owner and the Contractor. Such certificate when issued shall constitute final acceptance of the work covered under this Contract. 9.06 Final Estimate and Payment. After the Contract Completion Certificate has been issued. the Engineer shall proceed to make final measurements and to prepare a final estimate of the work done and materials furnished under this Contract and the value thereof. The Engineer shall certify the Final Estimate and submit it to the Owner within five (5) days from the date of the Contract Completion Certificate. 9.07 The Owner shall pay the Contractor within fifteen (15) days from the date of the Contract Completion Certificate the entire sum shown due on the certified Final Estimate prepared by the Engineer after deducting all amounts to be kept and retained under any provision of this Contract. However, it is to be specifically understood that the final payment will not be paid by the Owner to the Contractor under any circumstances until the Notarized Affidavit required by Section 9.07 entitled "Notarized Affidavit ", has been submitted to the Engineer. All prior estimates and payments shall be subject to correction in the final estimate and payment; but in the absence of error or manifest mistake. it is agreed that all estimates, when approved by the Owner, shall be conclusive evidence of the work done and materials furnished. Notarized Affidavit. Before final payment for the work by the Owner the Contractor shall submit to the Engineer a notarized affidavit in duplicate stating under oath that all subcontractors, vendors, and other persons or firms who have furnished or performed labor or furnished materials for the work have been fully paid or satisfactorily secured. Such affidavit shall bear or be accompanied by a statement, signed by the Surety Company who provided the performance bond for the work, to the effect that said Surety Company consents to final payment to the Contractor being made by the Owner. 9.08 Release of Liability. The acceptance by the Contractor of the last payment shall operate as and shall be a release to the Owner and every officer and agent thereof from all claims and liability hereunder for anything done or furnished for or relating to the work or for any act or neglect of the Owner or of any person relating to or affecting the work. CC -21 9.09 Contractor's Obligation. Neither the Contract Completion Certificate nor the final payment nor any provision in the Contract Documents shall relieve the Contractor of the obligation for fulfillment of any warranty which may be required in the Contract Documents. 9.10 Payments Withheld. The Owner may. on account of subsequently discovered evidence. withhold or nullify the whole or part of any payment to such extent as may be necessary to protect himself from loss on account of: a. Defective work not remedied. b. Claims filed or reasonable evidence indicating probable filing of claims. c. Failure of the Contractor to make payments properly to subcontractors or for material or labor. d. Damage to another contractor. When the above grounds are removed or the Contractor provides a Surety Bond satisfactory to the Owner, which will protect the Owner in the amount withheld, payment shall be made for amounts withheld because of them. GC -22 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 SOILS INVESTIGATION Series 0 Bidding and Contract Requirements Soil Investigation Data Section 00220 Depending on project requirements, Owner may have obtained geotechnical information, which may Include subsur- face data, logs of soil borings and recommendations from geotechnlcal consultants. Any Information obtained is solely for use by Engineer /Architect in design of project and are not part of contract. If soil borings have been prepared, they will be included In this section or on plans. Any geotechnical Information Included Is for information only. Owner doss not guarantee accuracy or validity of soil Investigation data, nor does Owner assume any responsibility for Contractor Interpretation or conclusions drawn from data. Contractor may, at his option, perform additional subsurface Investigations at his own expense. End 00220 Rev. 03/24/88 Page 1 Soil Investigation Data ®Trinity Engineering Testing Corporation PAVEMENT DESIGN INVESTIGATION TELLABS DRIVE EXTENSION ROUND ROCK, TEXAS FOR THE CITY OF ROUND ROCK AND BAKER AICKLEN & ASSOCIATES, INC, CONSULTING CIVIL ENGINEERS AUSTIN, TEXAS JUNE 1989 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 ®Trinity Testing Engineering raa IMPORTANT INFORMATION ABOUT YOUR GEOTECHNICAL ENGINEERING REPORT More construction problems are caused by site subsur- face conditions than any other factot As troublesome as subsurface problems can be. their frequency and extent have been lessened considerably in recent years. due in large measure to programs and publications of ASFE/ The Association of Engineering Firms Practicing in the Geosdences The following suggestions and observations are offered to help you reduce the geotechnical- related delays. cost - overruns and other costly headaches that can occur during a construction project. A GEOTECHNICAL ENGINEERING • REPORT IS BASED ON A UNIQUE SET OF PROJECT-SPECIFIC FACTORS A geotechnlcal engineering report is based on a subsur- face exploration plan designed to incorporate a unique set of project - specific factors. These typically include: the general nature of the structure involved. its size and configuration: the location of the structure on the site and Its orientation. physical concomitants such as access roads. parking lots. and underground utilities. and the level of additional risk which the dient assumed by virtue of limitations imposed upon the exploratory program. To help avoid costly problems. consult the geotechnlcal engineer to determine how any factors which change subsequent to the date of the report may affect its recommendations. Unless your consulting geotechnical engineer indicates otherwise. your geotechnical engineering report should not be used: • When the nature of the proposed structure is changed. for example. if an office building will be erected instead of a parking garage. or If a refriger- ated warehouse will be built instead of an unre- frigerated one • when the size or configuration of the proposed structure is altered; • when the location or orientation of the proposed structure is modified: • when there is a change of ownership. or • for application to an adjacent site. Geotechnical engineers cannot accept responsibility for problems which may develop if they are not consulted after factors consid- ered in their report's development have changed. MOST GEOTECHNICAL "FINDINGS" ARE PROFESSIONAL ESTIMATES Site exploration identifies actual subsurface conditions only at those points where samples are taken. when they are taken. Data derived through sampling and sub- sequent laboratory testing are extrapolated by geo- technical engineers who then render an opinion about overall subsurface conditions. their likely reaction to proposed construction activity and appropriate founda- tion design. Even under optimal circumstances actual conditions may differ from those Inferred to exist, because no geotechnical engineer no matter how qualified. and no subsurface exploration program. no matter how comprehensive. can reveal what Is hidden by earth. rock and time. The actual interface between mate- rials may be far more gradual or abrupt than a report indicates. Actual conditions in areas not sampled may differ from predictions Nothing can be done to prevent the unanticipated. but steps can be taken to help minimize their impact. For this reason. most experienced owners retain their geotechnical consultants through the construdlon stage. to iden- tify variances. conduct additional tests which may be needed. and to recommend solutions to problems encountered on site. SUBSURFACE CONDITIONS CAN CHANGE Subsurface conditions may be modified by constantly - changing natural forces. Because a geotechnical engi- neering report is based on conditions which existed at the time of subsurface exploration. construction decisions should not be based on a geotechnical engineering report whose adequacy may have been affected by time. Speak with the geo- technical consultant to learn if additional tests are advisable before construction starts. Construction operations at or adjacent to the site and natural events such as floods earthquakes or ground- water fluctuations may also affect subsurface conditions and. thus the continuing adequacy of a geotechnical report. The geotechnical engineer should be kept apprised of any such events. and should be consulted to determine if additional tests are necessary. GEOTECHNICAL SERVICES ARE PERFORMED FOR SPECIFIC PURPOSES AND PERSONS Geotechnical engineers reports are prepared to meet the specific needs of specific individuals. A report pre- pared for a consulting civil engineer may not be ade- quate for a construction contractor or even some other consulting civil engineer. Unless indicated otherwise. this report was prepared expressly for the client involved and expressly for purposes indicated by the client. Use by any other persons for any purpose. or by the client for a different purpose. may result in problems. No indi- vidual other than the client should apply this report for its intended purpose without first conferring with the geolechnual engineer. No person should apply this report for any purpose other than that originally contemplated without first conferring with the geotechnical engineer. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 A GEOTECHNICAL ENGINEERING REPORT IS SUBJECT TO MISINTERPRETATION Costly problems can occur when other design profes- sionals develop their plans based on misinterpretations of a geotechnical engineering report. To help avoid these problems. the geotechnical engineer should be retained to work with other appropriate design profes- sionals to explain relevant geotechnical findings and to review the adequacy of their plans and specifications relative to geotechnical Issues BORING LOGS SHOULD NOT BE SEPARATED FROM THE ENGINEERING REPORT Final boring logs are developed by geotechnical engi- neers based upon their interpretation of field logs (assembled by site personnel) and laboratory evaluation of field samples. Only final boring logs customarily are induded in geotechnical engineering reports These fogs should not under any circumstances be redrawn for inclusion in architectural or other design drawings. because drafters may commit errors or omissions in the transfer process Although photographic reproduction eliminates this problem. it does nothing to minimize the possibility of contractors misinterpreting the logs during bid prepara- tion. When this occurs. delays. disputes and unantici- pated costs are the all- too - frequent result. To minimize the likelihood of boring log misinterpreta- tion. give contractors ready access to the complete geotechnical engineering report prepared or authorized for their use. Those who do not provide such access may proceed un- der the mistaken Impression that simply disclaiming re- sponsibility for the accuracy of subsurface information always insulates them from attendant liability Providing the best available information to contractors helps pre- vent costly construction problems and the adversarial attitudes which aggravate them to disproportionate scale. READ RESPONSIBILITY CLAUSES CLOSELY Because geotechnical engineering is based extensively on judgment and opinion. it Is far less exact than other design disciplines. This situation has resulted In wholly unwarranted claims being lodged against geotechnical consultants To help prevent this problem. geotechnical engineers have developed model clauses for use in writ- ten transmittals These are not exculpatory dauses designed to foist'geotechnical engineers' liabilities onto someone else. Rather. they are definitive clauses which identify where geotechnical engineers' responsibilities begin and end. Their use helps all parties involved rec- ognize their individual responsibilities and take appro- priate action. Some of these definitive clauses are likely to appear in your geotechnical engineering report. and you are encouraged to read them closely Your geo- technical engineer will be pleased to give full and hank answers to your questions OTHER S I LPS YOU CAN TAKE TO REDUCE RISK Your consulting geotechnical engineer will be pleased to discuss other techniques which can be employed to mit- igate risk In addition. ASFE has developed a variety of materials which may be beneficial- Contact ASFE for a complimentary copy of its publications directory. AIFE Published by THE ASSOCIATION OF ENGINEERING FIRMS PRACTICING IN THE GEOSCIENCES 8811 Colesville Road /Suite G 106 /Silver Spring, Maryland 20910/13011 565 -2733 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Trinity Engineering Testing Corporation INTRODUCTION General 1 Subsurface Exploration 1 Laboratory Testing 1 SUBSURFACE MATERIALS AND CONDITIANS. 2 PAVEMENT DESIGN ANALYSIS Subgrade Support Characteristics 3 Traffic Loading 3 Pavement Thickness Requirements 4 Specification Requirements 6 Drainage Culvert Considerations 7 APPENDIX TABLE OF CONTENTS PAGE 1 1 1 1 1 1 1 1 1 1 1 1 a 1 1 1 1 1 ®,hi Testing PAVEMENT DESIGN INVESTIGATION TELLABS DRIVE EXTENSION ROUND ROCK, TEXAS INTRODUCTION o Atterberg Limits o Percent Passing No. 200 Mesh Sieve o Unit Dry Weight and Moistures o Pocket Penetrometer Tests o pH Lime Content Determinations 1 General: This investigation of subsurface conditions along the proposed route of Tellabs Drive in Round Rock, Texas was authorized on May 19, 1989 in general accordance with our proposal letter dated May 1, 1989. The purpose of this investigation has been to determine subsurface materials along the route and to recommend a flexible pavement design section for the anticipated traffic conditions. Details and results of the investigations are described in the following paragraphs. Subsurface Exploration: The subsurface conditions along the route were explored by five core borings varying in depth from 4.5 to 10.0 feet below the existing ground surface. The specific boring locations are illustrated on Plate I in the Appendix. Boring Nos. 2 and 4 were located just adjacent to drainage ditches where culverts may be required in construction of the roadway. Laboratory Testing: The subsurface materials recovered from the field operations were returned to the Austin laboratory where they were visually examined and representative samples selected for testing. The following tests were conducted: Results of these tests are summarized on Plates II through V. In addition, the classification tests and pocket penetrometer results are shown on the individual Logs of Borings. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 m T y Engineering Testing ti SUBSURFACE MATERIALS AND CONDITIONS 2 Specific types and depths of subsurface materials encountered at each boring location are described on the Logs of Borings. This information along with review of other previous project data such as the B.J. Hughes Plant has provided a generalized view of the subgrade soil conditions. The underlying primary geologic formation mapped at this site is the Grayson Marl /Georgetown formations, undivided and overlain in scattered areas by redeposited terrace deposits. Soils dominate near the surface and down to depths of approximately 7.5 to 10.0 feet where limestones, shaley limestones and marly shales in various stages of weathering are present. These surficial soils which influence the pavement thickness design are primarily fine- grained cohesive soils described as clay (CH), silty clay (CL) and sandy clay (CL) and then varying with depth to somewhat less plastic and more granular soils described as clayey sands or gravels (SC /GC), silty clay with limestone gravel (CL), and severely weathered limestone. The borings conducted for this investigation did not encounter evidence of groundwater at the shallow depths generally less than 5 feet. However, shallow perched seepage water is very likely present particularly on top of the primary limestone and shales following rainfall periods. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Trinity Engineering Testing Corporation PAVEMENT DESIGN ANALYSIS 3 The thickness of the flexible pavement proposed for this extension of Tellabs Drive will depend on several factors including: o Subgrade support characteristics o Magnitude and frequency of the various wheel load applications over the design life o Quality of available construction materials Subgrade Support Characteristics: The subgrade support for the flexible pavement may well vary from moderate to high plasticity clays which were present in the upper 1.5 to 3.0 feet in all borings except B2, to moderate to low plasticity silty clays, clayey sands /gravels and severely weathered limestones. Using the Atterberg Limit and gradation data for these soils, the Texas triaxial classifications have been determined from past correlations as follows: o Dark Brown to Brown Silty Clays and Clays LL = 45 to 60 PI = 25 to 40 ( -)200 = 80 %+ Texas Triaxial Class = 5.1 to 5.6 (Design Value = 5.5) o Silty Clays, Clayey Sands /Gravels and Severely Weathered Limestones LL = 25 to 40 PI = 9 to 20 ( -)200 = 40 to 801 Texas Triaxial Class = 3.8 to 4.5 (Design Value = 4.2) One of these two subgrade conditions will likely be present depending on the actual "cut" depths along the route. Traffic Loading: The proposed Tellabs Drive extension will provide an access route south out of the industrial development area north of Greenhill Drive. When the east frontage road of IH35 which is now two -way is changed to one -way north, the new Tellabs Drive extension will be heavily used as a shorter route back south. It is also our understanding that ultimately this industrial tract will encompass approximately 105 acres much of which will depend on Tellabs Drive. 4(411 ill Engineering Testing Corporation 1 1 1 1 1 1 1 1 1 1 1 1 From a pavement design viewpoint we are primarily • interested in the number of 18 -kip equivalent axle load repetitions to which this street would be subject over its design life. Without specific traffic counts, axle loads and projections, it is necessary that we rely on published data for various street traffic -use categories such as shown on Plate VI in the Appendix. Rased on my knowledge of the project, I would anticipate that the traffic loading would fall somewhere within the following range: Street CIassification Commercial Collector Commercial Collector Secondary Arterial 250,000 400,000 600,000 18 -Kip Single Axle Load Applications 19.0" 20.0" 22.0" 250,000 400,000 600,000 Pavement Thickness Requirements: Using the City of Austin procedures as developed by Mr. Chester McDowell and utilizing the three traffic (street) categories and two possible subgrade conditions at the site, the range of flexible pavement thicknesses can be assessed. 18 -Kip Single Axle Flexible Pavement Thickness Load Applications Triaxial = 5.5 Triaxial = 4.2 11.5" 12.0" 13.5" 4 These calculations illustrate the non - linear benefits of additional initial pavement thickness in extending- the life of a pavement. An inch or two in additional base material can theoretically double its life as viewed by the number of 18 -kip applications to failure. This example also illustrates the benefit of an HMAC overlay if applied prior to permanent deflection and failure of the base and subgrade. It is my understanding that the existing northern segment of Tellabs Drive was constructed with 1.5 inches of hot mix overlying 10 inches of base, and that Greenhill Drive was constructed with 2 inches of hot mix overlying 9.5 inches of base. Neither of these streets received lime stabilized subgrade although again I understand that other segments of 1 1 1 1 1 1 1 1 1 1 1 0 1 1 1 1 1 1 ®Trinity Engineering Testing Corporation 2.0 inches Hot Mix Asphaltic Concrete 11.5 inches Crushed Limestone Base 6.0 inches Lime Stabilized Subgrade 19.5 inches Total Constructed Thickness 22.0 inches Total Equivalent Thickness (approximately 2i inches of stiffening credit provided by lime stabilized subgrade) o Delete the lime stabilized subgrade and construct: 2.0 inches Hot Mix Asphaltic Concrete 11.5 inches Crushed Limestone Base o Reduce the base thickness from 11.5 inches to 8 inches minimum for commercial street classifications and maintain the lime stabilized subgrade. 5 Greenhill Drive were lime stabilized. Provided that these thicknesses are correct, it would appear that these streets were designed at a lower traffic range and /or on the better subgrade as estimated by a triaxial class of 4.2. In the event that these streets were constructed on the higher P.I. clays with a triaxial class of 5.5, it is very likely that their design life will be considerably shortened under truck traffic loadings. Due to the uncertainty of future traffic on Tellabs Drive but knowing that significant traffic will be generated by construction. of this segment, it is recommended that the thicker section designed for 600,000 18 -kip single axle load applications be used. Thus, in those areas along the route where the high P1 clay (triaxial class = 5.5) exists as subgrade, the section should be constructed as follows: In those areas where the high PI clay is removed by the grade cuts or in areas where select low plasticity material can be placed in fill areas, the pavement may be constructed by either of the following alterations to the section above: It is recommended that the pavement be extended below and well back of the curb and gutters to provide adequate support and to minimize the development of longitudinal cracks due to subgrade shrinkage. Proper compaction behind the curbs is also important in preventing the curbs from rotating and in preventing water from entering from behind the curbs. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Trinity Engineering Corporation Specification Requirements: The pavements should be specified, constructed and tested to meeting the following requirements: o Reference: 1982 Standard Specifications for Construction of Highways, Streets, and Bridges, Texas State Department of Highways and Public Transportation. 1. Hot Mix Asphaltic Concrete - SDHPT Item 340, Type D, Fine Graded Surface Course. 2. Crushed Limestone Base Material - SDHPT Item 248, Type A, Grade 2 or better. The base material shall be placed in lifts not exceeding six inches compacted thickness, and shall be compacted to a density not less than 100 percent of maximum density as obtained by SDHPT Test Method TEX- 113 -E. 3. Lime Stabilized Subgrade - Hydrated lime shall be furnished in accordance with SDHPT Item 264. Placement and workmanship shall be in accordance with SDHPT Item 260. Hydrated lime shall be placed at the following rates: Material Type Application Rate (pounds per square yard of six inch compacted thickness) High P.I. Clays with triaxial classification of 5.5 Lower P.I: Clays with triaxial classification of 4.2 31.5 pounds /sq. yd. 20.0 pounds /sq. yd. The well-mixed and cured lime treated subgrade shall be compacted to a density not less than 95 percent of maximum density as obtained by SDHPT Test Method TEX - 113 -E. Moisture content shall be within ±2 percent of optimum. 4. Natural Subgrade - In those areas where base material is to be placed directly on subgrade without lime stabilization, the subgrade shall be compacted to a density not less than 95 percent of maximum density as obtained by SDHPT Test Method TEX- 113 -E. Moisture content shall be adjusted to within ±2 percent of optimum. This specification shall also apply to select fill materials placed within the paved areas. In addition, fill materials shall be restricted to compacted lifts not exceeding 6 inches compacted thickness. 1 ,a411,' Trinity I Co�raon 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Reference to the City of Austin Standard Specifications may be made in lieu of the itemized listing shown on the previous page provided that the quantity of lime is stated. The compaction specifications are essentially the same. Drainage Culvert Considerations: Our Boring Nos. 2 and 4 are located just north of existing drainage ditches at each of these locations. The existing ditch just south of our Boring No. 2 is approximately 2.0 feet below the top of our boring. The first limestone layer was encountered at this location at 5 feet but was interbedded below that depth with soil layers. It is not anticipated that bearing capacity will be a factor in the design of a culvert at this location as the subsurface materials are stiff and dense. A safe allowable bearing value of 2,500 p.s.f. may be used in soils and 5,000 p. s. f. in the weathered limestone stratigraphy. The existing drainage feature just south of Boring No. 4 is perhaps 8 to 8 feet below the top of our boring and may very well be flowing just on top of the stratum at 8 feet in which our boring encountered thin limestone layers. The bearing values suggested in the previous paragraph would also apply at this location. Respectfully submitted, TRINITY ENGINEERING TESTING CORPORATION Robert C. Davis, Ph.D., P.E. Vice President Au -2797 June 8, 1989 • or T c� '� • � .. ROBERT C. DAVIS %61,... 38890 ?a'/ • 7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 SCALE Engineering t Testing Corporation TELLABS DRIVE EXTENSION ROUND FOGS. TEXAS 300 FEET VICINITY MAP NEW EXTENSION TELLABS DRIVE PLATE I a Ns = we am Es um um mu am EN on ma we Ns um EN e1■ me TELLABS DRIVE EXTENSION ROUND ROCK, TEXAS SUMMARY OF CLASSIFICATION TESTS Liquid Plasticity % Passing Natural Boring Depth Limit Index 200 -Mesh M.C. Classi- No. ft. % $ $ $ fication Description 1 0.0 - 1.5 57 33 82 30.8 CH Dark Brown Clay 1.5 - 3.0 36 18 38 11.1 SC Tan and Brown Clayey Sand with limestone gravel fragments 2 1.5 - 3.0 25 9 79 14.4 CL Tan Silty Clay with limestone fragments 4 1.5 - 3.0 57 38 91 18.0 CH Dark Brown Clay 3.0 - 4.5 28 12 55 13.3 CL /GC Tan Silty Clay with limestone fragments 5 0.0 - 1.5 48 27 83 19.8 CL Brown Silty Clay 1.5 - 3.0 31 15 64 13.7 CL Yellowish Tan and Brown Sandy Clay PLATE II 1111111101111 = 61111 = 1111 1 0 0111= 1 1=11110111111=1•IllIMMIIIIIIIIIIINIII TELLABS DRIVE EXTENSION ROUND ROCK, TEXAS SUMMARY OF UNIT %VEIGHT AND MOISTURE CONTENT TESTS Boring Depth U.D.W. M.C. Air Voids No. in Feet Lbs. /Cu. Ft. $ % Description 1 0.0 - 1.5 96 31 0.0 Dark Brown Clay 3 0.0 - 1.5 94 24 8.2 Brown Silty Clay 1.5 - 3.0 80 21 24.8 Tan and Brown Silty Clay 4 1.5 - 3.0 112 18 1.4 Dark Brown Clay 5 1.5 - 3.0 115 14 4.8 Yellowish Tan and Brown Sandy Clay 3.0 - 4.5 124 13 0.0 Tan Silty Clay PLATE II1 1 ®ty En C ���n 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1- 12.4 12.0 11.0 EL 10.0 9.0 8.0 7.0 0 PROJECT TELLABS DRIVE LOCATION: ROUND ROCK, TEXAS BORING. 5-1 AND 5-5 DEPTH: 0.0 -1.8 DESCRIPTION: DARK BROWN CLAY LIQUID LIMIT: 48 -87 PLASTICITY= 27 -33 PASSING 40 -MESH SEIVE: pH LIME SERIES TEST RESULTS pH LIME SERIES DATA PERCENT LIME 2! 0 7.22 2 1122 4 1179 5 11.97 6 12.08 8 12.28 10 12.32 LIME REQUIRED FOR STABILIZATION (RECOMMENDE01 7 NOTE —The pH LIME SERIES is a quick method of determination of percent lime required for stabif¢atian. I t is not intended to replace the more accurate strength series for soil -lime mixtures. 130 • • 2 4 6 8 PERCENT LIME ADDED 10 12 PLATE S 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1- Aiminkarmay Engineering T ration NOTE —The pH LIME SERIES to a quick method d determination of percent lime required for stabilization. It is not intended to replace the more accurate strength series for soli -lime mixtures. 130 12.4 12,0 11 0 0 10.0 9.0 8.0 7.0 pH LIME SERIES TEST RESULTS PROJECT TELLABS DRIVE LOCATION: ROUND ROCK , TEXAS BORING: 8 -5 DEPTH 1.5 -3.0 DESCRIPTION: YELLOWISH TAN AND BROWN SANDY CLAY LIQUID LIMIT: 31 PLASTICITY: 15 PASSING 40 -MESH SEIVE pH LIME SERIES DATA PERCENT LIME EH 0 7.64 2 IL97 4 12.29 5 12.38 6 12.36 8 12.36 10 12.37 LIME REQUIRED FOR STABILIZATION (RECOMMENDED 4 % • 1 • 2 4 6 8 PERCENT LIME ADDED 10 12 PLATE Y 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Testing AiL Anzerrinity Engineering Type Street* CRITERIA FOR OBTAINING THE LOAD - FREQUENCY DESIGN FACTOR Load " Design Total, Equivalent Frequency Wheel Load 18 Kip Single Azle Design Factor (Kips) Load Applications (LFDF) ADTR Minor Residential 14,000 0.65 6 Minor Residential 25,000 0.70 6 Residential Collector 38,000 0.75 8 Residential Collector 61,000 0.80 8 Neighborhood Collector 100,000 0.85 8 Neighborhood Collector 150,000 0.90 8 Commercial Collector 250,000 0.95 9 Commercial Collector 400,000 1.00 9 Secondary Arterial 600,000 1.05 10 Secondary Arterial 1,000,000 1.10 11 Secondary Arterial 1,500,000 1.15 12 Primary Arterial 1,500,000 1.15 14 *Minimum values shown for each type street. NOTE: ADTH - means Average Daily 10 Heaviest Loads Reproduced from City of Austin, Engineering Department guide: "Procedures For Street Paving Thickness Design" Plate VI DEPTH FEET SYMBOL SAMPLE N -BLOWS PER FOOT MATERIAL DESCRIPTION CORE DRILLED CORE RECOVERED 'A313 DEPTH SCALE' — undisturbed push tube sample - - 3.5••• pocket penetrometer test _ _ disturbed .sample - - 5 = 1 5.... split spoon sample and standard v water surface - - penetration blow count - E wash boring. no sample recocen — 7. Texas conepenetration TCP Test - 10 ) — — 100 Blows ■3" ` z 5. fl' 4.0' — — NX -stze core sample — 15 / 4 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 TYPICAL SOIL AND ROCK SYMBOLS iIJ Lonstarinity Engineering Corporation Well- Graded Gravel (GW) Poorly- Graded Gravel (GP) Silty Gravel (GM) Clayey Gravel (GC) Well- Graded Sand (SW) RID IIIII A 41 Silty Sand (SM) Clayey Sand (SC) Silt (ML) Lean Clay (CL) Elastic Silt (MH) Poorly- Graded Sand (SP) ® Fat Clay (CH) DEGREE OF WEATHERING Unweathered .. Rock in its natural state without visible sign of decomposition or discoloration Slightly Weathered ... Slight discoloration without visible sign of decomposition Weathered . Complete discoloration with zones of slightly decomposed rock Severely Weathered .... Complete discoloration and decom- position. approaching soil texture and appearance EXPLANATION OF SYMBOLS AND TERMS USED ON LOGS OF BORINGS El i Shale Sandy Shale Weathered Shale Sandstone Conglomerate Caliche I V .1 Limestone Shaley Limestone Weathered Limestone Dolomite Fill Material Asphaltic Concrete SOIL STRUCTURE Calcareous .... Containing calcium carbonate Slickensided ... The presence of planes of weakness having a slick and glossy appearance Fissured Breaks along definite planes of fracture with little resistance to fracturing Laminated Alternating thin layers or lenses of varying material or color Interbedded Alternating layers of varying material The Log of Boring is a representation of the subsurface materials at the specific boring location and within the depth explored. The transition between strata may be gradual and variations in materiai types and depths between borings can be expected. Water level observations represent those conditions at the time of exploration and may vary with time and location on the site. DEPTH FEET SYMBOL SAMPLE N -BLOWS PER FOOT MATERIAL DESCRIPTION CORE DRILLED CORE RECOVERED A313 'DEPTH SCALE' — 4.0* - 3.5 -__ TOPSOIL FOLLOWED BY DARK BROWN CLAY -- Lr =57 PI =31 (- )200 =82.0% _ _ — — - - — — — —. — _ TAN AND BROWN CLAYEY SAND WITH LIMESTONE GRAVEL hh =36 PI =18 (- )2Q0 =38.OY, — TAN SILTY CLAY WITH LIMESTONE GRAVEL (severely weathered limestone) __ — 5 — - - — Boring Terminated at 4.5 feet Note: Boring was advanced to 4.5 feet below the ground surface without using drilling fluid and groundwater was not encountered. * Designates pocket penetrometer results. s 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Project Location: Asseninity Corporation TELLABS DRIVE Round Rock, Texas Date: 5 -23-89 LOG OF BORING G Core Boring No: 1 109WAS 1333 Hid30 SAMPLE N -BLOWS PER FOOT MATERIAL DESCRIPTION 03T11H0 3H00 CORE RECOVERED A213 (DEPTH SCALE( — r — — 4.0* ---- C• S ON -.. d -r - — _ — _ _ TAN SILTY CLAY WITH LIMESTONE FRAGMENTS (severely weathered limestone) LL =25 PI=9 (- )200 =79.0% 5 — __ — — _\ TAN WEATHERED LIMESTONE (interbedded limestone and severely weathered limestone) - -Light gray below 7.5' _ — m. ... \ MI= n�a YM • 10 — — - - — Boring Terminated at 10.0' Note: Boring was advanced to 3.0 feet below the ground surface prior to using drilling fluid and groundwater was not encountered. * Designates pocket penetrometer results. — - - -- - — 1• 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 assaTrinity Engineering Testing Project TELLABS DRIVE Location: Round Rock, Texas LOG OF BORING Date: 5 -23 -89 Type: Core Boring No: 2 DEPTH FEET SYMBOL SAMPLE N -BLOWS PER FOOT MATERIAL DESCRIPTION CORE DRILLED CORE RECOVERED 'A313 [DEPTH SCALE' 4.0* 2.0 DARR BROWN TO BROWN SILTY CLAY — _ s everely _ —' J TAN AND BROWN SILTY CLAY (varying to • weathered limestone) 4 TAN CLAYEY GRAVEL (weathered limestone) 10 Boring Termineated at 6.0 feet Note: Boring was advanced to 6.0 feet below the ground surface without using drilling fluid and groundwater was not encountered. * Designates pocket penetrometer results. rini Engineering Testing Corporation 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 F Project: TELLABS DRIVE Location: Round Rock, Texas LOG OF BORING Date: 5 -23 -89 Type: Core Boring No: 3 i 18 T S } co a ¢ c, 0 - 8?_ m t[ za MATERIAL DESCRIPTION CORE DRILLED CORE RECOVERED A313 [DEPTH SCALE[ 5 / / 4.5* - - - - - - - - CRUSHED LIMESTONE BASE MATERIAL - --, - - - DARK BROWN CLAY - LL =57 PI =38 (- )200 =91.0% ^- LL -28 PI =12 (- )200 =55.O% TAN SILTY CLAY WITH LIMESTONE FRAGMENTS (tan severely weathered limestone) - thin limestone layers below 8.0' 5.0' 0.5' 10 Boring Terminated at 10.0 feet Note: Boring was advanced to 4.5 feet below the ground surface prior to using drilling fluid and ground- water was not encountered. * Designates pocket penetrometer results. '-' - - - 1 Trinity Engineering Testing Corporation 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Project Location: TELLABS DRIVE Round Rock, Texas LOG OF BORING Date: 5 -23 -89 Type: Core Boring No: 4 DEPTH FEET SYMBOL SAMPLE N -BLOWS PER FOOT MATERIAL DESCRIPTION CORE DRILLED CORE RECOVERED A3'13 (DEPTH SCALE( _ - ���- 3.5" 3.5 BROWN SILTY CLAY - - LL =48 PI =27 (- )200 =83.0% - - - - _ - - _ __ /.// LL =31 PI =15 (- )200 =64.0% YELLOWISH -TAN AND BROWN SANDY CLAY WITH LIMESTONE FRAGMENTS - - - TAN SILTY CLAY (severely weathered limestone) 5 __ Boring Terminated at 4.5 feet Note: Boring was advanced to 4.5 feet below the ground surface without using drilling fluid and ground- water was not encountered. * Designates pocket penetrometer results. • 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Location: sestarmity Engineering Testing Corporation Project TELLABS DRIVE Round Rock, Texas LOG OF BORING Date: 5 -23 -89 Type: Core Boring No: 5 TECHNICAL SPECIFICATIONS 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 101 Preparing Right of Way 101.1 Description This item shall consist of preparing the right of way for construction operations by removing and disposing of all obstructions from the right of way and from designated easements, where removal of such obstructions is not otherwise indicated. Such obstructions shall be consideted to include remains of houses not completely removed by others. foundations, floor slabs, concrete, brick, lumber, plaster, cistems, water wells, septic tanks or basements; abandoned Utility pipes, conduits or founda- tions; underground service station tanks, equipment or other foundations; fences, retaining walls, outhouses; shacks and all other debris. This item shall also include the removal ottrees, stumps, roots, bushes, shrubs, curb and gutter, driveways, paved parking areas, miscellaneous stone, brick, concrete, sidewalks, drainage structures, manholes, inlets, abandoned railroad tracks, scrap iron, an rubbish and debris whether above or below ground except live utility facilities. 101.2 Construction Methods - - - Prior to commencing this work, all erosion control and tree protection measures required shall be in place and utilities located and protected as set forth in "General Conditions of Agreement ". Areas within the construction limits as indicated shall be cleared of all obstructions, vegetation, abandoned structures as defined above: except trees or shrubs indicated for preservation which shall be carefully trimmed as directed and shall be protected from scarring, barking or other injuries during construction operations conforming to Item Na 610, 'Tree and Shrub Trimming and Preservation". Exposed ends of pruned limbs or scarred bark shall be pruned, trimmed and treated with an approved asphaltic material within 24 hours of the pruning or injury. Construction equipment shall not be operated within the drip line of trees, unless indicated. Construction materials shall not be stockpiled under the canopies of trees. No excavation or embankment shall be placed within the drip line of trees until tree wells are constructed. Unless otherwise indicated, all underground obstructions, stumps and roots shall be removed to the following depths: 1. In areas to receive 6 inches or more embankment, a minimum of 12 inches below natural ground. 2. In areas 10 receive embankment less than 6 inches and areas to be excavated, 18 inches below the lower elevation of the embankment, structure or excavation. 3. All other areas, 12 inches below natural ground. Holes remaining after removal of all obstructions, objectionable material, trees, stumps, etc. shall be backfilled with select em- bankment material and tamped. When a utility in service conflicts with the construction, it shall be modified as set forth in "General Conditions of Agreement ". Where an abandoned existing underground piped utility is found, it shall be cut and plugged, with 6 inches of concrete, brick and mortar or a precast stopper grouted in place Material to be removed will be designated salvageable or nonsalvageable by the Engineer prior to removal from the construction site by the Contractor. All salvageable material, as determined by the Engineer, will remain the property of the City and will be stored at the site or loaded on City trucks as directed by the Engineer. All nonsalvageable materials and debris shall become the property of the Contractor and shall be removed from the site and deposited at a permitted disposal site. 101.3 Measurement Preparing right of way for new construction, when included in the contract as a pay item, will be measured by the acre or by 100 foot stations or by lump sum, regardless of the width of the right of way. Measurement for payment will be made only on areas indicated and classified as "Preparing Right of Way ". 101.4 Payment This item will be considered subsidiary to Item No. 110, "Street Excavation ", hem No. 111, "Excavation ", Item No. 120, "Channel Excavation" and Item No. 132, "Embankment" unless Included as a separate pay item in the contract. When included for pay- ment, it shall be paid for at the contract price bid for "Preparing Right of Way ", which price shall be full compensation for work herein specified, including the furnishing of all materials, equipment, tools, labor and incidentals necessary to complete the work. Payment, when included as a contract pay item, will be made under one of the following: 101 Rev. 09/30187 Page 1 Preparing Right of Way Pay Item No. 101-A: Preparing Right of Way — Per Acre. Pay Item No. 101-8: Preparing Right of Way — Per Station. Pay Item No. 101-C: Preparing Right of Way — Per Lump Sum. Ref: 110, 111, 120, 132, 610 No separate payment will be made for this itej1., Should be considered subsidiary to items 104 & 110. End. 101 Rev. 09130187 Page 2 Preparing Right of Way 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 102.1 Description This item shall consist of removing and disposing of all trees, stumps, brush, roots, shrubs, vegetation, logs, rubbish and other objectionable material. 102.2 Construction Methods Prior to commencing this work. all erosion control and tree protection measures required shall be in place and all utilities located and protected as set forth in " General Conditions of Agreement ". Areas within the construction limits or as indicated shall be cleared of all trees, stumps. brush, etc, as defined above; except trees or shrubs indicated for preservation which shall be carefully trimmed as directed, conforming to Item No.610, "Tree and. Shrub Trimming and Preservation" and shall be protected from scarring, barking or other injuries duri.tg construction operations. Exposed ends of pruned limbs or scarred bark shall be pruned, trimmed and treated with an approved asphaltic material within 24 hours of the pruning or injury. • Construclion equipment shall not be operated within the drip line of trees, unless indicated. Construction materials shall not be stockpiled under the canopies of trees. No excavation or embankment shall be placed within the drip line of trees until tree wells are constructed. Within the construction limits or areas indicated, all obstructions. stumps. roots, vegetation, abandoned structures, rubbish and objectionable material shall be removed to the following depths: 1. In areas to receive 6 inches or more embankment, a minimum of 12 inches below natural ground. 2. In areas to receive embarkment less than 6 inches and areas to be excavated, 18 inches below the lower elevation of the embankment, structure or excavation. 3. All other areas, 12 inches below natural ground. Holes remaining atter removal of all obstructions. objectionable material. trees, stumps, etc., shall be backfilled with select em- bankment material and tamped. All cleared and grubbed material shall be disposed of in a manner satisfactory to the Engineer. Unless otherwise provided, all materials as described above shall become the property of the Contractor and removed from the site and disposed of at a permit- ted disposal site. Burning materials at the site shall conform to "General Conditions of Agreement ". 102.3 Measurement End. Item No. 102 Clearing and Grubbing "Clearing and Grubbing ", when included in the contract as a pay item, will be measured by the acre. 100 foot stations or lump sum regardless of the width of the right of way. 102.4 Payment This item will be considered subsidiary to Item No. 110, "Street Excavation" or Item No. 111, "Excavation'. unless included as a separate pay item in the contract. When included for payment, ft shall be paid for at the unit price bid for "Clearing and Grubbing ", which price shall be full compensation for all work herein specified. including the furnishing of all materials, equipment, tools, labor and incidentals necessary to complete the work. Payment, when included as a contract pay item, will be made under one of the following: Pay Item No. 102 -A: Clearing and Grubbing — Per Acre. Pay Item No. 102 -B: Clearing and Grubbing — Per Station. Pay Item No. 102 -C: Clearing and Grubbing — Lump Sum. No separate payment will be made for this item . Should be considered subsidiary to Items No. 104 & 110. Page 1 12/03/86 102 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 104.2 Classfficatlan Payment will be made under one of the following: Item No. 104 Removing Concrete 104.1 Description This item shall consist of breaking up, removing and satisfactorily disposing of existing concrete, as classified, at locations indi- cated or as directed by the Engineer. Existing concrete, when removed under this section, will be classified as toliows: 1. Concrete Curb will include curb, curb and gutter and combinations thereof. 2. Concrete Slabs will include, but not be limited to, patio slabs, porch slabs, concrete riprap and concrete pavement. 3. Sidewalks and Driveways will include concrete sidewalks and driveways. 4. Concrete Walls will include all walls regardless of height and wall footings. 5. Concrete Steps will include all steps and combinations of walls and steps. 6. Abandoned Foundations will include abandoned Electric Department foundations. 7. Miscellaneous Concrete shall include but not be limited to manholes, inlets, junction boxes and headwalls. 104.3 Materials (1) Mortar Mortar shall conform to mortar in Item No. 510, "Pipe'. 104.4 Construction Methods Prior to commencing this work. all erosion control and tree protection measures required shall be in place and all utilities located and protected as set forth in "General Conditions of Agreement ". The existing concrete shall be broken up. removed to conform to Item No. 101, "Preparing Right of Way" and disposed of by the Contractor and deposited at a permitted disposal site. Where only a portion of the existing concrete is to be removed and that remaining will continue to serve in its purpose, care shall be exercised to avoid damage to that portion to remain in place. The existing concrete shall be cut to the neat lines when indi- cated or as established by the Engineer. by sawing with an appropriate type circular concrete saw to a minimum depth of ' inch. Any reinforcing steel encountered shall be cut off 1 inch inside of concrete sawed line. Any existing concrete which is damaged or destroyed beyond the neat lines so established shall be replaced at the Contractor's expense. Remaining concrete shall be mortared to protect the reinforcing steel and provide a neat clean appearance. Where reinforcement is encountered in the removed portions of structures to be modified, a minimum of 1 foot of steel length shall be cleaned of all old concrete and lett in place to tie into the new construction where applicable. All unsuitable material shall be removed and replaced with approved material. All foundations, walls or other objectionable material shall be removed to a minimum depth of 18 inches below all structures and 12 inches below areas to be vegetated. 104.5 Measurement Concrete curb and concrete wall removed as prescribed above will be measured by the linear foot in its original position re- gardless of the dimensions or size. Concrete slabs and concrete sidewalks and driveways removed as prescribed above will be measured by the square foot in original position, regardless of the thickness and reinforcing. Concrete steps removed will be measured per linear foot of each individual step tread including the bottom step. Concrete foundations removed will be measured per each. Miscellaneous concrete removed will be measured per each. 104.6 Payment This item will be paid for at the contract unit price bid for "Remove Concrete Curb ", "Remove Concrete Slab ", "Remove Concrete Sidewalks and Driveways ", "Remove Concrete Walls ". "Remove Concrete Steps ", "Remove Concrete Foundations" and "Remove Miscellaneous Concrete" which price shall be full compensation for all work herein specified. including the disposal of all material not required in the work, the furnishing of all materials, equipment, tools, labor and incidentals necessary to complete the work. Page 1 12/03/86 104 End Pay Item No. 104-A: Remove Concrete Curb — Per Unear Foot. Pay hem No. 104-8: Remove Concrete Slab — Per Square . Foot. Pay Item No. 104-C: Remove Concrete Sidewalks and Driveways — Per Square Foot. Pay Item No. 104-0: Remove Concrete Wall — Per Linear Foot. Pay hem No. 104-E: Remove Concrete Steps — Per Linear Foot. Pay Item No. 104-F: Remove Concrete Foundations — Per Each. Pay Item No. 104 -G: Remove Miscellaneous Concrete — Per Lump Sum. 104 04117/86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 110 Street Excavation 110.1 Description This item shall consist of excavating and properly utilizing or otherwise satisfactorily disposing of all excavated material, of what- ever character, within the right of way or other limits of the work indicated and the constructing, compacting, shaping and fin- ishing of all earthwork on the entire project in accordance with the specification requirements herein outlined and to conformity with the required lines, grades and typical cross sections indicated or as directed by the Engineer. When not otherwise included in the Contract Documents, this item shall include the work described in Item No. 101, "Preparing Right of Way ", Item No. 102, "Clearing and Grubbing ", Item No. 104, "Removing Concrete ", Item No. 132, "Embankment" and Item No. 201, "Subgrade Preparation ". 110.2 Classification All excavation shall be unclassified and shall include all materials encountered regardless of their nature or the manner in which they are removed. 110.3 Construction Methods Prior to commencing this work, all erosion control and tree protection measures required shall be in place and all utilities located and protected as set forth in "General Conditions of Agreement ". Construction equipment shall not be operated within the drip line of trees. unless indicated. Construction materials shall not be stockpiled under the canopies of trees. No excavation. d embankment shall be placed within the drip line of trees until tree wells are constructed conforming to Item No 610, "Tree Shrub Trimming and Preservation'. All street excavation shall be performed as specified herein and shall conform to the established alignment, grades and cross sections, The Contractor will be required to set blue -tops for the subgrade on centerlines at quarter points and curb lines or edge of pavement at intervals not exceeding 50 feet Suitable excavated materials shall be utilized, insofar as practicable, in construct- ing required embankments. The construction of all embankments shall conform to Item No 132, "Embankment ". Materials with a Plasticity Index (PI) greater than the surrounding materials or with a moisture content greater than 2 percent in excess of optimum shall be classified as unsuitable and must be manipulated to meet the above criteria before use or be removed. Unsuitable excavated materials or excavation in excess of that needed for construction shall be known as "Waste" and shall become the property of the Contractor. It shall become his sole responsibility to dispose of this material off the limits of the right of way in an environmentally sound manner al a permitted disposal site. All blasting shall conform to the General Notes and to "General Conditions of Agreement'. In all cases where blasting is permitted. a Blasting Permit must be obtained in advance from the Department of Transportation and Public Services. 110.4 Measurement All accepted street excavation will be measured by Method A, B or C as follows: (1) Method A Measurement of the volume of excavation in cubic yards by the average end areas. Cross sectional areas shall be computed from the existing ground section to the established line of the subgrade as indicated for the limits of the right of way or other work limits shown, including parkway slopes and sidewalk areas. (2) Method B Measurement of the area in square yards of surface area excavated as indicated. (3) Method C Measurement of the volume of excavation in cubic yards, based upon the average end areas taken from pre - construction cross sections and planned grades. The planned quantities for street excavation will be used as the measurement for payment of this item. 110.5 Payment This item will be paid for at the contract unit price bid for "Street Excavation ". as provided under measurement Method A, 0 or C as included in the bid, which price shall be full compensation for all work herein specified, including subgrade preparation, unless specified otherwise and the furnishing of all materials, equipment, tools, labor and incidentals necessary to complete the work. Page 1 12/03/86 110 Payment will be made under one of the following: Pay Item No. 110-A: Street Excavation — Per Cubic Yard. Pay Item No. 110-B: Inch Street Excavation — Per Square Yard. Pay Item No. 110-0: Street Excavation — Per Cubic Yard. Plan Quantity. End 110 04/17/86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 111 Excavation 111.1 Description of This item shall consist of excavating and properly utilizing or otherwise satisfactorily disposing fishing e c all edrth materials, the w character, within the limits of the work and the constructing, compacfirlg, shaping and designated areas indicated In accordance with specification requirements herein outlined and in conformity with the required lines. grades and typical cross sections indicated or as directed by the Engineer. When not otherwise included or in the Contract Documents, this item shall include the work described in Item No. 101, "Preparing Right of Way'. Item No. 102, "Clearing and. Grubbing ", Item No. 104, "Removing Concrete ". Item No. 132 "Embankment" and Item No. 201, "Subgrade Preparation". 111.2 Classification All excavation shall be unclassified and shall include all materials encountered regardless of their nature or the manner in which they are removed. 111.3 Construction Methods Prior to commencing this work. all erosion control and tree protection measures required shall be in place and all utilities located and protected as set forth in "General Conditions of Agreement ". Construction equipment shall not be operated within the drip line of trees, unless otherwise indicated. Construction materials shall not be stockpiled under the canopies of trees. No excavation or embankment shall be placed within the drip line of trees until tree wells are constructed. All excavation shall be performed as specified herein and shall conform to the established alignment. grades and cross sections. Suitable embankments shall conform o Item o. "Embankment". insofar t No constructing required be stockpiled b within he of a att all waterway. Unsuitable excavated materials or excavation in excess of that needed for construction shall be known as "Waste" and shall become the property of the Contractor and it shall become his sole responsibility to dispose of this material off the limits of the right of way in an environmentally sound manner at a permitted disposal site. All blasting shall conform to the Provisions of "General Conditions of Agreement ". In all cases a Blasting Permit must be obtained in advance from the Department of Transportation and Public Services. Adequate dewatering and drainage of excavation shall be maintained throughout the time required to complete the work. 111.4 Measurement All accepted excavation will be measured by Method A, 8 or C as follows: (1) Method A • Measurement of the volume of excavation in cubic yards by the average end areas. Crosssectional areas shall be computed from the existing ground section to the established line of the subgrade, as shown on typical sections for the limits of the right of way or other work limits, including parkway slopes and sidewalk areas. (2) Method B Measurement of the area in square yards of surface area excavated as shown on the typical sections included in the plans. (3) Method C Measurement of the volume of excavation is in cubic yards, based upon the average end areas taken from pre - construction cross sections and planned grades. The planned quantities for excavation will be used as the measure- ment for payment for this item. 111.5 Payment This item will be paid for at the contract unit price bid for "Excavation ", as provided under measurement Method A, B or C as included in the bid, which price shall be full compensation for all work herein specified: including dewatering, drainage, subgrade preparation, unless otherwise indicated and the furnishing of all materials, equipment, tools, labor and incidentals necessary to complete the work. Payment will be made under one of the following: Page 1 12/03/86 111 NOTE: No separate payment for Item 111 will be made. Excavation will be considered subsidiary to Items 110 & 120. End. Pay Item No. 111-A: Excavation — Per Cubic Yard. Pay Item No. 111-8: Inch Excavation — Per Square Yard. Pay Item No. 111 -C: Excavation — Per Cubic Yard. Plan Quantity. 111 04/17/86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 120.1 Description This item shall consist of excavation for channels within the limits indicated, regardless of the type of material encountered, removing and properly utilizing or otherwise satisfactorily disposing of all excavated materials and the constructing, shaping and finishing of all earthwork involved in conformity with the required line, grades and cross sections indicated. When not otherwise indicated, this item shall include the work described in Item 101, "Preparing Right of Way", Item No. 102. "Clearing and Grubbing ", Item No. 104, "Removing Concrete" and Item No. 132, "Embankment ". 120.2 Classification All channel excavation will be unclassified and shall include all materials encountered regardless of their nature or the manner in which they are removed. - - - 120.3 Construction Methods Prior to commencing this work, all erosion control and tree protection measures required shall be in place and utilities located and protected as set forth in "General Conditions of Agreement ". Construction equipment shall not be operated within the drip line of trees. unless indicated. Construction materials shall not be placed under the canopies of trees. No excavation or embankment shall be placed within the drip line of trees until tree wells are constructed. All channel excavation shall be performed as specified herein and shall conform to the established alignment, grades and cross sections. When fill sections are required, Item No. 132, "Embankments" shall govern the construction method. Suitable exca- vated materials shall be utilized, insofar as practicable, in constructing required embankments. Precautions will be maintained at all times to protect all trees in the area of construction. Where removal of trees is necessary, they shall be marked as directed by the Engineer. Unsuitable excavated materials or excavation in excess of that needed for construction shall be known as "Waste" and shall become the property of the Contractor and it shall become his sole responsibility to dispose of this material off the limits of the right of way in an environmentally sound manner at a permitted disposal site. All blasting shall conform to "General Conditions of Agreement ". In all cases, a Blasting Permit must be obtained in advance from the Department of Transportation and Public Services. 120.4 Measurement Accepted channel excavation will be measured by Method A, B or C as follows: (1) Method A Measurement of the volume of excavation in cubic yards by the average end areas. Cross sectional areas shall be computed from the existing ground sections to the established final section indicated. (2) Method B Measurement of the length of the channel excavated in linear feet, as shown on the typical section. (3) Method C Measurement of the volume of excavation is in cubic yards, based upon average end areas taken from preconstruc- tion cross sections and the planned grades. The plan quantities for channel excavation will be used as the measure- ment for payment of this item. 120.5 Payment This item will be paid for at the contract unit price bid for "Channel Excavation", as provided under measurement Method A, B or C as included in the bid, which price shall be full compensation for furnishing all materials, equipment, tools, labor and incidentals necessary to complete the work. Payment will be made under one of the following: Pay Item No. 120-A: Channel Excavation —Per Cubic Yard. Pay Item No. 120-B: Channel Excavation, Foot Bottom — Per Linear Foot. Pay Item No. 120-G Channel Excavation — Fr Cubic Yard, Plan Quantity. End Ref. 101, 102, 104, 132 120 Rev. 09 /30187 Item No. 120 Channel Excavation Page 1 Channel Excavation 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 130.1 Description This item shall consist of required excavation, removal and proper utilization of materials secured from sources obtained by the Contractor and approved by the Engineer. Compaction of constructed from borrow as provided herein shall con- form to the method of Density Control in Item No. 132, "Embankment". Borrow will be resorted to only when indicated or directed by the Engineer and then only from approved sources. 130.2 Materials All authorized borrow shall conform to one of the following classes: 130.5 Item No. 130 Borrow Class A (Select Borrow) This material shall consist of sand or other suitable granular material, free from vegetation or other objectionable matter reasonably free from lumps of earth and when tested by standard SDHPT laboratory methods, shall meet the following requirements: The Liquid Limits shall not exceed 45 The Plasticity Index shall not be less than 4 nor more than 15 Class B This material shall consist of suitable nonswelling (soils with plasticity index less than 20) earth material such as loam, clay or other such materials that will form a stable embankment. Topsoil This material shall consist of approved topsoil material and shall be clean, friable soil capable of supporting plant life. This material shall also be free of stones and all other debris. 130.3 Construction Methods Prior to commencing this work, all erosion control and environmental measures required shall be in place. All suitable materials removed from excavations shall be used, insofar as practicable in the formation of embankments conforming to Item No. 132, "Embankment" or otherwise be utilized as indicated or as directed by the Engineer and the completed work shall conform to the established alignment, grades and cross section. Additional material necessary to complete the work described above shall be "Borrow" of the class specified. The Contractor shall arrange for borrow from one of the following sources' 1. Existing borrow pit 2. New borrow pit 3. Surplus excavated material from a site which has a site development permit. The Contractor shall notify the Engineer 3 weeks prior to opening pit to permit necessary testing for approval of materials. All borrow sites shall comply with the requirements of the permit. During construction, the borrow sources shall be kept drained, insofar as practicable, to permit final cross sections to be taken, when required. The Engineer shall be notified sufficiently in advance of opening any borrow source to permit necessary testing for approval of materials. Borrow sites shall be managed to minimize the impact of the appearance of the natural topographic features and at no time create a potential hazard to the public. 130.4 Measurement The measurement of Borrow and Topsoil will be measured by the cubic yard in its final position based upon the average end areas taken from pre - construction cross sections and plan grades. The plan quantities for Borrow or Topsoil will be used as the measurement for payment for this item. No separate measurement for payment will be made for this item. Borrow will be considered subsidiary to Item 132. Page 1 04/17/86 130 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 132 Embankment 132.1 Description This ttent shall consist of the placing and compacting of suitable materials obtained from approved sources for utilization in the construction of street or channel embankments, berms, levees, dikes and structures. '132,2 Construction Methods - (1) General Prior to placing any embankment, all tree protection, tree wells and erosion control devices shall be in place and all Item No. 101, "Preparing Right of Way" and /or Item No. 102, "Clearing and Grubbing" operations shall have been completed on the areas over which the embankment is to be placed. Stump holes or other small excavations in the limits of the embankments shall be backfilled with Suitable material and thoroughly tamped by approved methods before commencing embankment - construction. The surface of the ground, including plowed loosened ground or - surface roughened by small washes, shall be restored to approximately - its original slope and the ground surface thus prepared shall be compacted by sprinkling and rolling. Construction equipment shall not be operated within the drip line of trees, unless indicated. Construction materials shall not be stockpiled under the canopies of trees. No excavation or embankment shall be placed within the drip line of trees until tree wells are constructed conforming to Item No. 610, "Tree and Shrub Trimming and Preservation ". Unless otherwise indicated, the surface of the ground of all unpaved areas, other than rock which are to receive embankment, shall be loosened by scarifying or plowing to a depth of not less than 4 inches. The loosened material shall be recompacted with the new embankment as hereinafter specified. The surface of hillsides to receive embankment shall be loosened by scarifying or plowing to a depth of not less than 4 inches and benches cut before embankment materials are placed. The embankment shall then be placed in layers, as hereinafter specified, beginning at the low side in partial width layers and increasing the widths as the embank- ment is raised. The material which has been loosened shall be recompacted simultaneously with the embankment material placed at the same elevation. Where embankments are to be placed adjacent to or over existing roadbeds, the roadbed slopes shall be plowed or scarified to a depth of not less than 6 inches and the embankment built up in successive layers, as hereinafter speci- fied, to the level of the old roadbed before its height is increased. Then, if indicated, the top of the old roadbed shall be scarified and recompacted with the next layer of the new embankment. The total depth of the scarified and added material shall not exceed the permissible layer depth. Trees, stumps, roots, vegetation or other unsuitable materials shall not be placed in embankment. All embankment shall be constructed in layers approximately parallel to the finished grade and unless otherwise indicated, each layer shall be so constructed as to provide a uniform slope of '/< inch per foot from the centerline of the roadbed to the outside, except that on superelevated curves, each layer shall be constructed to conform to the superelevation indicated. The embankment shall be continuously maintained at its finished section and grade until that portion of the work Is accepted. After completion of the embankment to the finished section and grade, the Contractor shall proof roll the subgrade conforming to Item No. 236, "Rolling (Proof)" and revegetation procedures must commence immediately to minimize the soil loss and air pollution. (2) Earth Embankments Earth embankments shall be detined as embankments composed of soil material other than rock and shall be con- structed of acceptable material from approved sources. Except as otherwise indicated, earth embankments shall be constructed in successive 6 inch layers, loose measure, for the full width of the individual cross section and in such length as are best suited to the sprinkling and compaction methods utilized. Minor quantities of rocks not larger than 4 inches, encountered in constructing earth embankment may be incorpo- rated in the earth embankment layers, provided such placement of rock is not immediately adjacent to structures. Each layer of embankment shall be uniform as to material, density and moisture content before beginning compac- tion. Where layers of unlike materials abut each other, each layer shall be leathered on a slope of 1:20 or the mate- rial shall be so mixed as to prevent abrupt changes in the soil. No material placed in the embankment by dumping in a pile or windrows shall be incorporated in a layer in that position, but all such piles or windrows shall be moved by Page 1 04/17/86 132 (3) blading or similar methods. Clods or lumps of material shall be broken and the embankment material mixed by blad- ing, harrowing, discing or similar methods to the end that a uniform material of uniform density is secured in each layer. Water required for sprinkling to bring the material to the moisture content necessary for optimum compaction shall be evenly applied and it shall be the responsibility of the Contractor to secure a uniform moisture content throughout the layer by such methods as may be necessary. All earth cuts, whether full width or partial width cuts in the side of a hill, which are not required to be excavated below subgrade elevation shall be scarified to a uniform depth of at least 6 inches below grade and the material shall be mixed and reshaped by blading and then sprinkled and rolled in accordance with the requirements outlined above for earth embankments and to the same density as that required for the adjacent embankment. Compaction of embankments shall conform to Item No. 201, "Subgrade Preparation ". Each layer shall be com- pacted to the required density by any method, type and size of equipment which will give the required compaction. Prior to and in conjunction with the rolling operation, each layer shall be brought to the moisture content necessary to obtain the required density and shall be kept leveled with suitable equipment to insure uniform compaction over the enure layer. For each layer of earth embankment and select material, it is the intent of this specification to provide the density as required herein, unless otherwise indicated. Soils shall be sprinkled as required and compacted to the extent neces- sary to provide not less than 95 percent nor more than 105 percent of the density as determined in accordance with SDHPT Test Method Tex -114 -E at optimum moisture content or within minus 3 percent of the optimum moisture content. Care shall be taken to avoid overcompacting high PI expansive clays. After each layer of earth embankment or select material is complete, tests as necessary will be made by the Engi- neer. If the material fails to meet the density specified, the course shall be reworked as necessary to obtain the specified compaction. Rock Embankments Rock embankments shall be defined as those composed principally of rock and shall be constructed of accepted material from approved sources. Rock embankments shall not be placed immediately adjacent to structures. Except as otherwise indicated, rock embankments shall be constructed in successive layers for the full width of the cross section and of 18 inches or less in depth. When, in the opinion of the Engineer, the rock sizes necessitate a greater depth of layer than specified, the layer depth may be increased as necessary, but in no case shall the depth of layer exceed 2 'h feet. Each layer shall be constructed by starting at one end and dumping the rock on top of the layer being constructed then pushing the material ahead with a bulldozer in such a manner that the larger rock will be placed on the ground or preceding embankment layer and the interstices between the larger stones filled with small stones and spells by the operation and from the placing of succeeding loads of material. The maximum dimension of any rock used in embankment shall be less than the depth of the embankment layer and in no case shall any rock over 2 feet in its greatest dimension be placed in the embankment. All oversized rocks which are otherwise suitable for construction shall be broken to the required dimension and utilized in embankment construction where indicated, except that when preferred by the Contractor and acceptable to the Engineer, such rocks may be placed at other points where the embankment layer is of greater depth, thus requiring less breakage. Each layer shall be compacted to the required density as outlined for "Earth Embankments ", above, except in those layers where rock will make density testing difficult, the Engineer may accept the layer by visual inspection or proof rolling conforming to Item No. 236, "Rolling (Proof) ". Unless otherwise indicated, the upper 3 feet of the embankment shall contain no stones larger than 4 inches in their greatest dimension and shall be composed of material so graded that the density and uniformity of the surface layer may be secured in accordance with SDHPT Test Method Tex- 114-E. Exposed oversize material shall be broken up or removed. (4) At Culverts and Bridges Embankments adjacent to culverts and bridges which cannot be compacted by use of the blading and rolling equip- ment used in compacting the adjoining sections of embankment shall be compacted in the manner prescribed under Item No. 401, "Structural Excavation and Backfill ". Embankment placed around spill through type abutments shall be constructed in 6 inch loose layers of uniform suit- able material placed in such manner as to maintain approximately the same elevation on each side of the abutment and all materials shall be mixed, wetted and compacted as specified above. 132 04/17/86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Embankment material placed adjacent to any portion of any structure or above•the top of any culvert or similar struc- tufrekihell be free of any appreciable amount of gravel or stone particles arid thoroughly compacted by mechanical compaction equipment. 132.3 Measuretnent All accepted embankment, when included in the contract as a separate pay item, will be measured in place and the volume computed in cubic yards by the method of average end areas. No allowance will be made for shrinkage. 132.4 Payment This item is usually subsidiary to excavation and /or borrow and is not paid for separately. However, when included in the contract as a separate pay item, it shall be paid for at the contract unit price bid for "Embankment", which price shall be full compensation for all work herein specified, including the furnishing of all materials (except "Borrow" when paid as a separate bid item), com- pacting, equipment. tools, labor, water for sprinkling, proof rolling and incidentals necessary to complete the work. Payment, when included in the contract as a separate pay item, will be made under: End Pay Item No. 132: Embankment — Per Cubic Yard. Page 3 04/17786 132 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 201.1 Description This item shall consist of scarifying, blading and rolling the subgrade to obtain a unitarm texture and provide as nearly as prac- ticable a uniform density for the top 6 inches of the subgrade. 201.2 Construction Methods All preparing of the right of way and/or clearing and grubbing shall be completed before starting the subgrade preparation. The subgrade shall be scarified and shaped in conformity with the typical sections and the lines and grades indicated or as estab- lished by the Engineer by the removal of existing material or addition of approved material. All unsuitable material shall be re- moved and replaced with approved material. All foundatlons, walls or other objectionable material shall be removed to a mini- mum depth 0118 inches under all structures and 12 inches under areas to be vegetated. All holes, ruts and depressions shall be filled with approved material. The surface of the subgrade shall be finished to the lines and grades as established and be in conformity with the typical sections indicated. Any deviation in excess of 1/2 inch cross section and in a length of 10 feet measured longitudinally shall be corrected by loosening, adding or removing material, reshaping and compacting by sprinkling and rolling. Sufficient subgrade shall be prepared in advance to insure satisfactory prosecution of the work. The Contractor will be required to set blue tops for the subgrade on centerline, at quarter points and curb lines or edge of pavement at intervals not exceeding 50 feet. All suitable material removed may be utilized in the subgrade with the approval of the Engineer. All other material required for completion of the subgrade shall also be subject to approval by the Engineer. Subgrade materials on which structures shall be placed shall be compacted by approved mechanical tamping equipment to a density of the total material of not less than 95 percent nor more than 100 percent of the density as determined in accordance with SDHPT Test Method Tex -114-E. Subgrade materials on which planting or turf will be established shall be compacted to a minimum of 85 percent of the density as determined in accordance with SDHPT Test Method Tex -114-E. Tests for density will be made as soon as possible after compacting operations are completed. If the material fails to meet the density specified, it shall be reworked as necessary to obtain the density required. Prior to placing any base materials, density and moisture content of the top 6 inches of compacted subgrade shall be checked and if tests Show the density to be more than 2 percent below the specified minimum or the moisture content to be more than 3 percent above or below the optimum, the subgrade shall be reworked as necessary to obtain the specified compaction and moisture content. 201.3 Measurement Item No. 201 Subgrade Preparation All acceptable subgrade preparation will be measured by the square yard. The measured area includes the entire width of the roadway for the entire length as indicated. 201.4 Payment This item will be considered subsidiary to Item No. 110, "Street Excavation" or Item No. 111, "Excavation" unless included as a separate pay item in the contract. When included for payment, it shall be measured as specified. above and paid for at the con- tract unit price bid for "Subgrade Preparation" which price shall be full compensation for all work herein specified, including the furnishing of all materials, equipment, tools and labor and incidentals necessary to complete the work, Payment, when included as a contract pay item, will be made under: Pay Item No. 201: Subgrade Preparation — Per Square Yard. Ref: 110, 111 No separate payment will be made for this item. End 201 Rev. 09 /30187 Page 1 Subgrade Preparation 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 210:1 Description This item shalt consist of a orUShed MOM ffundation course for surfacing pavement or other base courses, furnished and in stalled on a prepared surface. The "Flexible Base" shall be constructed as herein Specified in one or more courses in conformity with the typical sections and to the lines and grades as indicated or as ebtablished' by the Engineer. 210.2 Material The material shall be crushed argillaceous limestone meeting the requirements hereinafter specified and shall consist of durable crushed stone and screened to the required particle size. The material shall be from approved sources. Testing of flexible base materials shall be in accordance with the following SDHPT standard laboratory test procedures: 1) Preparation for Soil Constants and Sieve Analysis 2) Liquid Limit 3) Plastic Limit 4) Plasticity Index 5) Sieve Analysis 6) Wet Ball Mill 7) Triaxial Test Tex -101 -E Tex -104 -E Tex -105 -E Tex -106 -E Tex -110 -E Tex -116 -E Tex -117 -E (Part II) Base material will be stockpiled after crushing, tested by the testing agency designated by the Owner and reviewed by the Owner prior to being hauled to the project site. The material shall be well graded and when properly tested, shall meet the following requirements: Sieve Size Percent Retained 13/ inch 0 r/8 inch 10 -35 MI inch 30 -50 No. 4 45 -65 No. 40 70 -85 Maximum Liquid Limit 35 Maximum Plasticity Index 10 Maximum Wet Ball Mill 50 Maximum increase in passing No. 40 from Wet Ball Mill Test 20 percent Item No. 210 Flexible Base Minimum compressive strength when subjected to the triaxial test: 35 psi at 0 psi lateral pressure and 175 psi at 15 psi lateral pressure, unless otherwise indicated. 210.3 Stockpiling, Storage and Management (1) Managing Aggregates (2) Test Sampling The Contractor may choose the method of sample gathering for testing by City Testing Consultants as follows: (n) The Contractor shall make a full height cut from each side of the stockpile. The 4 samples are then 210 Rev. 09/30/87 Prior to stockpiling of aggregates, the area shall be cleaned of trash, weeds and grass and be relatively smooth Stockpiles should be constructed to between 20,000 and 40,000 cubic yards in size. The size should be limited to the ability of the available equipment to construct. mix and test the pile. The stockpile shall be constructed utilizing equipment such as a scraper, a bottom dump or other acceptable equipment that allows spreading when dumped without rehandling. The stockpile shall be constructed to allow dump spreading in 1 direction only. Height of stockpile shall not exceed the capabilities of available machinery to make a full cut (bottom to top) on any of the 4 sides. The City will test a completed stockpile. The stockpile shall not be added to after it has been tested. The Contractor shall assure that only material from a City approved stockpile receives a weight ticket indicating an approved stockpile number. The liability for accuracy of the weight ticket, as to items such as stockpile number or an approved source, is solely that of the Contractor. Use full height cuts and mix the material during loading operations. The Inspector shall be given a weigh ticket at the time of delivery indicating the source, stockpile approval number and weight. Page 1 Flexible Base combined and mixed into a single "test" specimen from which the City's Testing Consultant can draw its samples. (b) As the stockpile is constructed, a perpendicular cut is to be made across the spreading direction at every 2 feet to 4 feet of height and the sample used to start a "mini' stockpile. Repeat the process, in 2 feet to 4 feet increments of heights, until the stockpile and the "mini" stockpile are completed. The Contractor shalt provide access to samples from the "mini" stockpile, as under (a) above, for the City's Testing Con - sultant to draw its samples .. 210.4 Construction Methods (1) Preparation of Subgrade "Flexible Base" shall not be placed until the Contractor has verified, by proof rolling, that the subgrade has been prepared and compacted in conformity with Item No. 201, " Subgrade Preparation" to the typical sections, lines and grades indicated. Any deviation shall be corrected and proof rolled prior to placement of aggregate. Blue tops shall be set by the Contractor for subgrade on centerline, quarter points, curb lines or edge of pavement where curb is omitted, at intervals not exceeding 50 feet. Subgrade shall be tested by proof rolling in conformity with ' Item No. 236, "Rolling (Proof)" prior to placing first course of base material. (2) First Course Immediately before placing the base material, the subgrade shall be checked as to conformity with grade and sec- tion. The thickness of each base course shall not exceed 6 inches, loose measure and will be equal increments of the total depth. The material shall be delivered in approved vehicles and it shall be the responsibility of the Contractor that the re- quired amount of specified material shall be delivered. Material deposited upon the subgrade shall be spread and shaped the same day unless otherwise approved by the Engineer. In the event inclement weather or other unfore- seen circumstances render impractical spreading of the material during the first 24 hour period, the material shall be spread as soon as conditions allow. The material shall be sprinkled, if required, and shall then be bladed, dragged and shaped to conform to typical sections as indicated. All areas and "nests" of segregated course or fine material shall be corrected or removed and replaced with well graded material. 11 additional binder is considered desirable or necessary after the material is spread and shaped, it shall be fumished and applied as required. Such binder mate- rial shall be carefully and evenly incorporated with the material in place by scarifying, harrowing, brooming or by other approved methods. The course shall be sprinkled as required to bring it to optimum moisture content and compacted to the extent nec- essary to provide not less than the percent density as hereinafter specified under "Density". In no case shall the base be worked at more than 2 percent above or below optimum moisture. In addition to the requirements specified for density, the full depth of flexible base indicated shall be compacted to the extent necessary to remain firm and stable under construction equipment. After each section of flexible base is completed, tests as necessary will be made by the Engineer. If the material fails to meet the density requirements, it shall be reworked as necessary to meet these requirements. Throughout this entire operation the shape of the base course shall be maintained by blading and the surface. upon completion, shall be smooth and in conformity with the typical section indicated and to the established lines and grades. In that area on which pavement is to be placed, any deviation in excess of .4 inch in cross section and in length of 16 feet measured longitudinally shall be corrected by loosening, adding or removing material. reshaping and recompacting by sprinkling and rolling. All irregularities, depressions or weak spots which develop shall be corrected immediately by scaritying the areas affected, adding suitable material as required, re- shaping and recompacting by sprinkling and rolling. Should the base course, due to any reason or cause, lose the required stability, density and finish before the surfacing is complete, it shall be recompacted and refinished at the sole expense of the Contractor. (3) Succeeding Courses • Construction methods shall be the same as prescribed for the first course. Blue tops shall be set by the Contractor for finished grade on the last course of base under curb and gutter, at a maximum of 50 foot intervals. Blue tops shall also be set by the Contractor for finished base grade on centerline, intermediate points not exceeding 11 feet be- tween points and at pavement edge if curb and gutter are not included in the work, at 50 foot intervals. (4) Density Each course of flexible base shalt be compacted to not less than 100 percent density when tested in accordance with SDHPT Test Method Tex- 113-E. Field density determination shall be made in accordance with approved methods. The. completed Flexible Base shall be tested by proof rolling in conformity with Item No. 236, "Rolling (Proof) ". 210 Rev. 09130/87 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Flexible Base 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 210.6 Measurement "Flexible Base" will be measured at depths specified for the area indicated, by the square yard or by the cubic yard, complete in place, as indicated in the bid. 210.6 Payment Ref: 201, 236 210 Rev. 09/30187 This item will be paid for at the contract unit price bid for "Flexible Base' which price shall be fullcompensation for all work herein specified, including the furnishing. hauling, placing and compacting of all materials, rolling, proof rolling, recompacting and re- finishing, for all water required and for all equipment, tools, labor and incidentals necessary to complete the work. Payment will be made under one of the following: Pay Item Na 21041: Flexible Base, 11.5 In — Per Square Yard. Pay Item No. 210.6: Flexible Base — Per Cubic Yard. Pay Item No. 210 —C: Flexible Base, 8" -- Per Square Yard. End Page 3 Flexible Base 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 220 SprinhgngwfOr Du$t Control 220.1 Description This Item shall consist of the application of water or asphalt emulsion on specified struts, detours, haul routes or Construction sites for the purpose of maintaining these areas relatively tree of dust. 220.2 Constructton Methods Dust control shall be achieved by the application of water or asphalt emulsion sprinkled in amounts sufficient to control the dust to the satisfaction of the engineer or by using equipment which is specially designed to trap dust in filters or bags. When asphalt emulsion Is to be applied, all environmental safe guards shall be in place prior t0 placing the emulsion. The Contractor shall furnish and operate an approved sprinkler, equipped with valves to regulate the flow of the liquid to the sprinkler bar so that the liquid will be evenly distributed and at a controllable rate over the enure width sprinkled. It shall be the Contractor's continuous responsibility at all times, including nights, holidays and weekends until acceptance of the project by the City, to maintain the specified areas relatively free of dust in a manner which will cause the least inconvenience to the public. 220.3 Measurement Sprinkling for dust control will be considered subsidiary to other items of the contract unless included as a separate pay item in the contract. When included for payment in the contract as a separate contract pay item, it will be measured in units of 1 ,000 gallons actually placed as authorized by the Engineer. 220.4 Payment This item, when provided for in the contract as a separate pay item, will be paid for in accordance with the contract unit price. The contract unit price shall be the total compensation for all labor, materials, tools, machinery, equipment and incidentals necessary to complete the work as indicated. Payment, when specified in the contract, will be made under one of the following: Pay Item No. 220 -A: Sprinkling for Dust Control (Water) — Per Unit. Pay Item No. 220 -B: Sprinkling for Dust Control (Asphalt Emulsion) — Per Unit. No separate payment will be made for this item. End Page 1 04/17!86 220 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 230.1 Description This item shall consist of the compaction of subgrade, embankment, flexible base, surface treatments and asphalt surfaces by the operation of approved power rollers as herein specified and as directed by the Engineer. 230.2 Equipment Rollers shall be maintained in good repair and operating condition and shall be approved by the Engineer. 230.3 Construction Methods (1) Subgrades, Embankments and Flexible Base The subgrade or embankment layer or the base course shall be sprinkled if directed and rolling with a power roller shall start longitudinally at the sides and proceed towards the center, overlapping on successive trips by at least Vz the width of the rear wheel of the power roller. On superelevated curves, rolling shall begin at the low sides and progress toward the high sides. Alternate trips of the roller shall be slightly different in length. The rollers, unless otherwise directed, shall be operated at a speed between 2 and 3 miles per hour. End Item No. 230 Roiling (Flat Wheel) (1) Embankments and Flexible Bases Power rollers shall be of the 3- wheel, self - propelled type, weighing not less than 10 tons and shall provide a com- pression on the -rear wheels of not less than 325 pounds per linear inch of wheel width. All wheels shall be flat. The rear wheels shall have a diameter of not less than 48 inches and each shall have a wheel width of not less than 20 inches. - - - - (2) Surface Treatments and Pavements Power rollers shall be the 3 - wheel or tandem, self - propelled type, weighing not less than 3 tons nor more than 6 tons. All wheels shall be flat. Rollers shall be equipped with an adequate scraping or cleaning device on each wheel. Rollers used to compact asphalt mixture shall be equipped with a water system which will keep all tires uniformly wet. In lieu of the rolling equipment specified, the Contractor may, upon written permission from the Engineer, operate other compacting equipment that will produce equivalent relative compaction in the same period of time as the specified equipment. If the substituted compaction equipment fails to produce the desired compaction within the same period of time as would be expected of the specified equipment, as determined by the Engineer, its use shall be discontinued. (2) Surface Treatments and Pavements Rolling shall be done to produce a satisfactory surface as called for in surface treatment and pavement items. The sequence of work shall be as indicated for embankment layer or base course. The operating speed shall be deter- mined by the Contractor. 230.4 Measurement and Payment No additional compensation will be made for materials, equipment or labor required by this item, but shall be considered subsidi- ary to the various items included in the contract. Page 1 04 17 86 230 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (3) 232 Rev. 09/30/87 Item No. 232 Rolling (Pneumatic Tire) 232.1 Description This item shall consist of the compaction of embankment. flexible base, surface treatments or pavements by the operation of approved pneumatic tire rollers as herein specified. (1) General Requirements When used on seal coats, asphaltic surface treatments and bituminous mixture pavements, the roller shall be self propelled and equipped with smooth tread tires with 45 psi tire pressure whether "Rolling (Light Pneumatic Tire)" or "Rolling (Medium Pneumatic Tire)" is specified. The roller shall be so constructed as to be capable of being operated in both a forward and a reverse direction. When used on bituminous mixture pavements, the roller shall have suitable provisions for moistening the surface of the tires while operating. When turning is impractical or detrimental to the work and when specifically directed by the Engineer, the roller shall be of the self- propelled type. In lieu of the rolling equipment specified, the Contractor may operate other compacting equipment that will produce equivalent relative compaction in the same period of time as the specified equipment. If the substituted compaction equipment fails to produce the desired compaction within the same period of time, its use shall be discontinued. Rollers shall be maintained in good repair and operating condition and shall be approved by the Engineer. (2) Light Pneumatic Tire Roller The light pneumatic tire roller shall consist of not less than 9 pneumatic tired wheels, running on axles in such man- ner that the rear group of tires will cover the entire gap between adjacent tires of the forward group and mounted in a rigid frame and provided with a loading platform or body suitable for ballast loading. The front axle shall be attached to the frame in such manner that the roller may be turned within a minimum circle. The pneumatic tire roller under working conditions shall have an effective rolling width of approximately 60 inches and shall be so designed that by ballast loading the total load may be varied uniformly from 9,000 pounds or less to 18,000 pounds or more. The roller shall be equipped with tires that will afford ground contact pressures to 45 pounds per square inch or more. The operating load and tire air pressure shall be within the range of the manufacturer's chart. The roller under working conditions shall provide a uniform compression under all wheels. Individual tire inflation pressures shall be within ±5 psi of each other. The pneumatic tire roller shall be drawn by either a suitable crawler type tractor, a pneumatic tired tractor, a truck of adequate tractive effort or may be of the self - propelled type and the roller, when drawn or propelled by either type of equipment, shall be considered a light pneumatic tire roller unit. Medium Pneumatic Tire Roller (Type A) The medium pneumatic tire roller (Type A) shall consist of not less than 7 pneumatic tired wheels, running on axles in such manner that the rear group of tires will cover the entire gap between adjacent tires of the forward group and mounted in a rigid frame and provided with a loading platform or body suitable for ballast loading. The front axle shall be attached to the frame in such a manner that the roller may be turned within a minimum circle. The pneumatic tire roller, under working conditions, shall have an effective rolling width of approximately 84 inches and shall be so designed that. by ballast loading, the total load may be varied uniformly from 23,500 pounds or less to 50,000 pounds or more. The roller shall be equipped with tires that will afford ground contact pressures to 80 pounds per square inch or more. Individual tire inflation pressures shall be within ±5 psi of each other. The operating load and tire air pressure shall be within the range of the manufacturer's chart. The pneumatic tire roller shall be drawn by either a suitable crawler type tractor, a pneumatic tired tractor, a truck of adequate tractive effort or may be of the self - propelled type. The roller, when drawn or propelled by any type of equipment, shall be considered a medium pneumatic tire roller unit. The power unit shall have adequate tractive effort to properly move the operating roller at variable uniform speeds up to approximately 5 miles per hour. (4) Medium Pneumatic Tire Roller (Type B) The medium pneumatic tire roller (Type B) shall conform to the requirements for Medium Pneumatic Tire Roller (Type A) as specified above, except that the roller shall be equipped with tires that will afford ground contact pres- sures to 90 psi or more 232.2 Construction Methods Tire pressure is critical to successful operation of the roller. Contractor shall have equipment on the construction site to inflate tires as required. Page 1 Rolling (Pneumatic Tire) The embankment layer or the base course shall be sprinkled if directed and rolling with a pneumatic tire roller shall start longitu- dinally at the sides and proceed towards the center, overlapping on successive trips by at least '.i of the width of the pneumatic tire roller. On superelevated curves, rolling shall begin at the low sides and progress toward the high sides. Alternate trips of the roller shalt be slightly different in length. The light pneumatic tire roller shall be operated at speeds between 2 and 6 miles per hour for asphalt surfacing work and all other work. The medium pneumatic tire roller shall be operated at speeds which produce a satisfactory product. Sufficient rollers shall be provided to compact the material in a satisfactory manner. When operations are so isolated from one another that 1 roller unit cannot perform the required compaction satisfactorily, additional roller units shall be provided. 232.3 Measurement and Payment No additional compensation will be made for materials, equipment or labor required by this item, but shall be considered subsidi- ary to the various items of the contract. End 232 Rev. 09 /30/87 Page 2 Rolling (Pneumatic Tire) 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 234 Rolling (Tamping) 234.1 Description This item shall consist of the compaction of embankment by the operation of approved tamping rollers as herein specified and as directed by the Engineer. 234.2 Equipment The tamping rollers shall consist of 2 metal rollers, drums or shells 0140 inches minimum diameter; each not less than 42 inches in length and unit mounted in a rigid frame in such a manner that each roller may oscillate independently of the other. Each roller, drum or shell shall be surmounted by metal studs with tamping feet projecting not less than 7 inches from the surface and spaced • not less than 6 inches nor more than 10 inches, measured diagonally center to center and the cross sectional area of each tamping foot, measured perpendicularly to the axis of the stud, shall not be less than 5 nor more than 8 square inches. The roller shall be supplemented with cleaning teeth to provide self cleaning. The roller shall be so designed that, by ballast loading, the load on each tamping foot may be varied uniformly from 125 to 175 psi of cross sectional area. The load per tamping foot will be determined by dividing the total weight of the roller by the number of tamping feet in 1 row parallel to or approximately parallel to the axis of the roller. The compression to be provided at any time shall be as directed by the Engineer. The tamping roller shall be drawn by suitable power equipment of adequate tractive effort. Two tamping rollers, consisting of 4 cylinders, conforming to the above prescribed requirements, drawn by approved power equipment, shall be considered a roller unit. Where turning is impractical or detrimental to the work and when specifically directed by the Engineer, 1 tamping roller consisting of 2 cylinders, fastened to the front end of approved power equipment, shall be considered a roller unit. In lieu of the rolling equipment specified, the Contractor may, upon written permission from the Engineer, operate other compact- ing equipment that will produce equivalent relative compaction in the same period of time as the specified equipment. If the substituted compaction equipment fails to produce the desired compaction within the same period of time as would be expected of the specified equipment, as determined by the Engineer, its use shall be discontinued. Rollers shall be maintained in good repair and operating condition and shall be approved by the Engineer. 234.3 Construction Methods This work shall be done only when ordered by the Engineer. The embankment layer or the base course shall be sprinkled if directed and rolling with a tamping roller unit shall start longitudinally at the sides and proceed toward the center, overlapping on successive trips by at least S of the width of the tamping roller unit. On superelevated curves, rolling shall begin at the low sides and progress toward the high sides. Alternate trips of the unit shall be slightly different in length. The tamping roller unit, unless otherwise directed, shall be operated at a speed between 2 and 3 miles per hour. Sufficient rollers shall be provided to compact the material in a satisfactory manner. The minimum number of rolling units shall be governed by the progress in placing the material to be compacted. The quantity of material placed per hour shall be determined by averaging the total quantity of material placed within any 1 working day. When operations are so isolated from one another that one roller cannot perform the required compaction satisfactorily, additional rollers shall be provided and operated as directed by the Engineer. 234.4 Measurement and' Payment No additional payment will be made for the materials, equipment or labor required by this item, but shall be considered subsidiary to the various items included in the contract. End Page 1 04/17/86 234 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 236 Rolling (Proof) 236.1 Description This item shall consist of furnishing and operating heavy pneumatic tired compaction equipment for testing the compaction of embankment, subgrade or flexible base. Proof rolling is designed to locate unstable areas. - • 236.2 Equipment • The proof rolling equipment shall consist of not less than 4 pneumatic tired wheels, Punning on axles carrying not more than. 2 wheels and mounted in a rigid frame and provided with loading platform or body suitable for ballast loading. All wheels shall be arranged so that they will carry approximately equal loads when operating on uneven surfaces. The proof roller under working conditions shall have a rolling width of from 8 feet to 10 feet and shall be so designed that, by ballast loading, the gross load may be varied uniformly from 25 tons to 50 tons. The tires shall be capable of operating under the various loads with variable air pressures up to 150 pounds per square inch. The operating load and tire pressure shall be within the range of the manufacturer's chart as directed by the Engineer. The proof roller shall be drawn by a suitable crawler type tractor or rubber tire tractor of adequate tractive effort or may be of self - propelled type. There shall be a sufficient quantity of ballast available to load the equipment to a maximum gross weight of 50 tons. Rubber tired tractive equipment shall be used on base courses. Other type tractive equipment may be used on embankment subgrade..The heavy pneumatic tire roller unit shall be capable of turning 180 degrees in the crown width. In lieu of the rolling equipment specified, the Contractor may, upon written permission from the Engineer, operate other equip- ment that will produce equivalent results as the specified equipment. If the substituted equipment fails to produce the desired results as would be expected of the specified equipment as determined by the Engineer, its use shall be discontinued. 236.3 Construction Methods This work shall be done to proof all prepared subgrades and flexible base courses or as directed by the Engineer. On embank- ment compaction, each layer will be placed to specified thickness at optimum moisture and compacted with conventional equip- ment to comply with the requirements of the governing embankment item. Prior to placing the overlaying course, the layer shall be proof rolled as directed by the Engineer. When the operation of the proof rolling unit shows an area to be unstable or nonuniform, such area shall be brought to satisfac- tory stability and uniformity by additional compaction, by removal of unsuitable materials or replacement with suitable materials and recompaction. The surface tested shall then be checked for conformity with line and grade and any irregularities corrected. Rollers shall be operated at speeds between 2 and 6 miles per hour or as directed by the Engineer. 236.4 Measurement and Payment No additional payment will be made for the materials, equipment or labor required by this item, but shall be considered subsidiary to the various items included in the contract. End Page 1 04 17 86 236 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 301.1 Description lternNo. 301 Asphalts, Oils and.;Erqulsions 11116 Item shall consist of the requirements for oil asphalts, cutback asphalts, road oily, emulsified asphalts, asphalt cement and other miscellaneous asphaltic materials. 301.2 Materials When tested according to State Department of Highways and Public Transportation Test Methods, the various materials shall meet the applicable requirements of this specification. (1) Asphalt Cement The material shall be homogeneous, free from water, shall not foam when heated to 350 F and shall meet the follow- ing requirements: Viscosity 140 F Poises Viscosity 275 F stokes Test Solubility in trichloroethylene, percent Tests on residues from thin filrn oven test: Viscosity 140 F stokes Ductility 77 F 5 crns per min. cros Spot test VISCOSITY GRADE AC -3 AC -5 AC -10 AC -20 AC -40 Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. 300 100 500± 100 1000.200 2000 s 400 4000 c 800 1.1 — 1.4 -- 1.9 — 2.5 — 3.5 — Penetration 77 F. 100g.5 sec. 210 — 135 -- 85 — 55 — 35 — Flash Point. C.O.C. F 425 -- 425 — 450 — 450 — 450 — 99.0 — 99.0 — 99.0 — 99.0 — 99.0 — — 900 — 1500 — 3000 — 6000 — 12000 100 — 100 — 70 — 50 — 30 Negative for all grades (2) Latex Additive The minimum of 2 percent by weight, latex additive (solids basis) shalt be added to AC -5 Asphalt when indicated The latex additive shall conform to the following: The latex is to be an anionic emulsion of butadiene- styrene low- temperature copolymer in water. stabilized with fatty -acid soap so as to have good storage stability, and possessing the following properties: Monomer ratio, B/S 70/30 Minimum solids content 67% Solids content per gal at 67% 5.3 lbs. Coagulum on 80 -mesh screen 0.1% maximum Type Anti - oxidant staining Mooney Viscosity of Polymer (M /L 4 at 212 F)1 100 minimum pH of Latex 9.4 -10.5 Surface tension 28 -42 dynes /cm' Brookfield Viscosity of Latex 1200 ps maximum at 67% solids Page 1 04,17 86 301 The finished latex- asphalt blend shall meet the following requirements:, Viscosity at 140 F stokes 1500 maximum Ductility at 39.2 F.1 cm per min. cm 100 minimum (3) Cutback Asphalt Cutback Asphalt shall conform to the following table: • CUTBACK ASPHALT RAPID CURING TYPE CUTBACK ASPHALT Type -Grade RC -250 RC -800 RC -3000 Properties Minimum Maximum Minimum Maximum Minimum Maximum Water, percent — 0.2 — 0.2 — 0.2 Flash Point, T.O.C., F 80- 80 80 Kinematic vis. crr 140 F, cst 250 400 800 1600 3000 6000 Distillation Test: - Distillate, percentage by volume of total distillate to 680 F to 437 F 40 75 35 70 20 55 to 500 F 65 90 55 85 45 75 to 600 F 85 — 80 — 70 — Residue from Distillation Volume Percent 70 — 75 — 82 — Tests of Distillation Residue Penetration, 1009 100 150 100 150 100 150 5 sec.. 77 F Ductility, 5 cm /min. 100 — 100 100 77 F, cm Solubility in trichloroethylene, % 99.0 — 99.0 — 99.0 — Spot Test ALL NEGATIVE MEDIUM CURING TYPE CUTBACK ASPHALT Type -Grade MC -30 MC -70 MC -250 MC -800 MC -3000 Properties Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. 0.2 — 0.2 — 0.2 — 0.2 — 0.2 100 — 100 — 150 — 150 — 150 — 30 60 70 140 250 500 800 1600 3000 6000 Water, Flash Point, T.O.C., F Kinematic vis. (r 140 F. cst. The Distillate, expressed as percent by volume to total distillate to 680 F, shall be as follows: Off at 437 F — 25 — 20 — 10 — — — — Off at 500 F - 40 70 20 60 15 55 — 35 — 15 Off at 600 F 75 93 65 90 60 87 45 80 15 75 Residue from 680 F Distillation, Volume Percent 50 — 55 — . 67 75 — 80 — 301 04/17/86 Page 2 1 1 1 1 1 1 r 1 1 1 1. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 t 1 1 1 1 11 Tests on Distillation Residue: Penetration at 77 F 100g, 5 sec. 120 250 120 250 120 250 120 - 25Q 120 250 Ductility at 77 P 5 cm /min, cros 100* — 100* — 100" — 100* — 100` — Solubility In trichloroethylene, % 99.0 — - 99.0 — 99.0 — 99.0 — 99.0 — Spot Test ALL NEGATIVE "It penetration of residue is more than 200 and ductility at 77 F is less than 100 cm, the material will be acceptable if its ductility at 60 F is more than 100. AE -P CUTBACK ASPHALT Type -Grade AE -P • Properties Minimum • Maximum Viscosity Cm 122.F, SF, sec. 15 150 Sieve Test, % - 0.1 Demulsibility, 50mL 0.1 N CaCI,,, % - 70 Storage Stability, 24 hr,, % 1.0 TEST ON RESIDUE FROM CUTBACK DISTILLATION TO 680 F USINT RESIDUE FROM 500 F DISTILLATION % 40 Total Oils' from Distillation, % 20 35 Float (. 122 F on Residue from Cutback Distillation 50 200 Solubility in Trichloroethylene, T 97.5 'Cumulative total from 500 F distillation of emulsion and distillation of residue by cutback distillation to 680 F. (4) Emulsions The material shall be homogenous. It shall show no separation of asphalt after thorough mixing and shall meet the viscosity requirements at any time within 30 days after delivery. ANIONIC EMULSIONS Rapid Setting Medium Setting Slow Setting Type -Grade RS -2 RS -2h MS -2 MS -2h MS -1 SS -1 Properties Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Furol Viscosity at 77 F. sec. — 30 100 30 100 Furol Viscosity at 122 F, sec. 150 400 150 400 100 300 100 300 Residue by Distillation, % 65 65 65 — 65 60 60 Oil Portion of Distillate, % 2 2 2 2 — 2 2 Sieve Test, % 0.1 — 0.1 0.1 — 0.1 0.1 0.1 Miscibility (Standard Test) — — Passing Passing Coating Passing — Cement Mixing, % — — 2.0 Demulsibility 50 cc of N /10 CaCI„ % 70 Demulsibility 35 cc of N /50 CaCI„ % 60 60 — 30 30 Storage Stability 1 day, % 1 — 1 1 Page 3 04/17/86 301 1 ANIONIC EMULSIONS Rapid Setting Medium Setting Slow Setting 1 Type -Grade RS -2 RS -2h MS -2 MS-2h MS -1 SS -1 Properties Min. Max. Min. Max. Min. Max.. Min. Max. Min. Max. Min. Max. I - Freezing Test, 3 Cycles' — — — • — Passing Passing Passing Passing Tests of Residue: Penetration at 77 F, 100g, 5 sec. 120 160 80 110 -120 160 • 80 110 120 160 120 160 Solubility in Trichloroethylene, % 97.5 — 97.5 — 97.5 97.5 — 97.5 — 97.5 Ductility at 77 F, 5 cm /min, cms 100 100 — 100 — 100 — 100 — 100 1 — 'Applies only when Engineer designates material for winter use. CATIONIC EMULSIONS 1 Rapid Setting Medium Setting Slow Setting Type -Grade CRS -2 CRS -2h CMS -2 CMS-2h CSS -1 CSS -1h 1 Min. Max. Min. Max. Min. Max. Min. Max. .Min. Max. Min. Max. Viscosity, Saybolt Furol at 77 F sec. — — 20 100 20 100 r Viscosity, Saybolt Furol at 122 F sec. 150 400 150 400 100 100 300 100 1.00 300 Storage stability test, 1 day % — 1 — 1 — 1 — 1 — 1 1 Demulsibility, ' 35 ml 0.8% sodium I dioctyl sulfosuccinate °, 40 — 40 — — — — — — Coating, ability & water resistance: 1 Coating, dry aggregate — - good good — — — Coating, after spraying — — fair fair — — — — Coating, wet aggregate — — fair fair — — — — Coating, after spraying fair fair Particle charge test .Positive Positive Positive Positive Positive Positive Sieve test % — 0.10 — 0.10 — •0.10 — 0.10 0.10 — 0.10 _ Cement Mixing test, % — — 2.0 — 2.0 Distillation: Oil distillate, by volume of emulsion, — 3 — 3 — '12 — 12 3 — — 3 Residue, % 65 65 — 65 — 65 — 60 — 60 — Tests on Residue from Distillation Test: Penetration, 77 F, 100 g 5 sec. • 120 160 80 110 120 200 80 110 120 160 80 110 Ductility, 77 F, 5 cm /min, cm 100 — 100 — 100 — 100 — 100 — 100 — Solubility in trichloroethylene, % 97.5 — 97.5 — 97.5 — 97.5 • — 97.5 — 97.5 — The demulsibility test shall be made within 30 days from date of shipment. 301 04/17/86 Page 4 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (b) (8) Precoat Material Precoat material may consist of any one of the various types of asphaltic materials listed in this specification, approved by the Engineer, including "Special Precoat Material ". ( (8) Fluxing Material Fluxing material shall be free fro m f°reign matter and shall conform to the following: Properties Minimum ... Water, % — . 0.2 Kinematic Viscosity at 140 F, cst 50 120 Flash Point, C.O.C., F 250 — Loss on Heating, 50g, 5 hrs at 325 F, % — 5 Asphalt Content of 85 to 115 penetration by vacuum distillation weight, % 25 - — Pour Point, F - — - 60 Special Precoat Material Properties Minimum Maximum Water, % — Flash, C.O.C., F 200 Kinematic Viscosity at 140 F, cst. 300 Distillation to 680 F: Initial Boiling point, F 500 Residue by weight, % 70 Penetration residue, 77 F, 100g, 5 sec 200 High Float Emulsions HIGH FLOAT EMULSIONS Rapid Setting Medium Setting Type -Grade HFRS -2 AES -300 Properties Minimum Maximum Minimum Maximum Furol Viscosity at 77 F, sec. — — 75 400 Furol Viscosity at 122 F, sec 150 400 — — Residue by Distillation, % 65 — 65 — Oil Portion of Distillate, % — 2 — 7 Sieve Test, % — 0.1 — 0,1 Coating — — Passing Demulsibility 35 cc of N /50 CaCI,., % 50 Storage Stability Test. 1 day, % — 1 1 Tests on Residue: Penetration at 77 F, 100 g, 5 sec. - 100 140 300 Solubility in Trichloroethylene, % 97.5 — 97.5 Ductility at 77.5 cm /min, cms 100 Float Test at 140 F, sec. 1200 1200 Catalytically -Blown Asphalt Joint and Crack Sealer Catalytically -blown asphalt shalt be uniformly blended with 10 percent diatomaceous earth filler which passes the No. 325 sieve. It shall form a suitable joint and crack sealer which may be melted to pouring consistency in the regular asphalt kettle at a temperature of approximately 450 F to 475 F. The material shall meet the following requirements: Type -Grade Maximum 0.2 500 300 68 -88 Pen 38 -45 Pen Minimum Maximum Minimum Maximum Penetration, 77 F, 1009, 5 sec 68 88 38 45 Penetration, 32 F, 200g, 60 sec 38 — — — Penetration, 115 F, 50g, 5 sec — 160 — — Softening Point, R & B, F 175 200 185 200 Flash, C.O.C., F 500 — 500 -- Page 5 04/1786 301 68 -88 Pen 38 -45 Pen Type -Grade Minimum Maximum Minimum Maximum Ductility, 77 F, 5 cm /min, cms 5 — 3 — Flow, 140 F. cm — 0.5 — 0.5 Ash, Weight, % 8 — 8 — Settlement Ratio — 1.02 — 1.02 Brittleness Test, 32 F .. No Cracking No Cracking 301.3 Storage., Heating and Application Temperatures Asphaltic materials should be applied at the temperature which provides proper and uniform distribution and with practical limits avoiding higher temperatures than necessary. Satisfactory application usually should be obtained within the recommended ranges shown below. No material shall be heated above the following maximum temperatures: Application and Mixing Heating and Recommended Storage Type -Grade Range, F Allowable, F Maximum, F AC- 5,10,20.40 275 375 350 AC-3 220 -300 350 350 AE -P 100 -140 140 140 RC -250 125 -180 200 200 RC -800 170 -230 260 260 RC -3000 215 -275 285 285 MC -30 70 -150 175 175 MC -70 125 -175 200 200 MC-250 - 125 -210 240 240 MC -800 175 -260 275 275 MC -3000 225 -275 290 290 Cat. Blown Asph 425 -475 500 500 Special Precoat Material 125 -250 275 275 SS -1, MS -1, CSS -1, CSS -1h 50 -130 140 140 RS -2. RS -2h, MS -2, MS -2h, CRS -2, CRS -2h, CMS -2, CMS -2h, HFRS -2, AES -300 110 -160 170 170 NOTE: Heating of asphaltic materials (except emulsions) constitutes a fire hazard to various degrees. Proper precautions should be used in all cases and especially with RC cutbacks. Warning to Contractors Attention is called to the fact that asphaltic materials are very flammable. The utmost care shall be taken to prevent open flames from coming in contact with the asphaltic material or the gases of same. The Contractor shall be respon- sible for any fires or accidents which may result from heating the asphaltic materials. 301.4 Measurement and Payment All asphaltic materials included in this specification will be measured and paid for conforming to the governing specifications for the items of construction in which these materials are used. End 301 04/17/86 Page 6 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No 306 Prime Coat 306.1 Description This Item shall consist of an application of asphaltic material on the completed base course and /or other approved areas in accordance with these specifications as directed by the Engineer. 306.2 Materials (1) Asphalt Materials The asphalt material for Prime Coat shall conform to the requirements of Cutback Asphalt, MC-30, Emulsion, MS -2, SS -1, Emulsion CSS -1 or AE -P, Item No. 301, "Asphalts, Oils and Emulsions ". (2) Water Water shall be furnished by the Contractor and shall be clean and free from industrial wastes and other objectionable matter. (3) 306.4 Measurement Dispersal Agent Detergent shall be added to water and sprayed on surfaces to be primed in accordance with asphalt manufacturer's recommendations. 306.3 Construction Methods When, in the opinion of the Engineer, the base course or other surface is satisfactory to receive the prime coat, the surface shall be cleaned by sweeping or other approved methods as directed by the Engineer. The surface shall be lightly sprinkled with water just prior to application of the asphaltic material unless this requirement is waived by the Engineer. The Contractor shall submit a list of prime material(s) recommended to be applied on the work to the Engineer for approval. When emulsions are approved, a dispersal agent shall be added to the water before sprinkling. The asphaltic material shall be applied on the clean surface by an approved type of self - propelled pressure distributor operated so as to distribute the prime coat at a rate ranging from 0.1 to 0.3 gallons per square yard of surface area. The material shall be evenly and smoothly distributed. During the application of prime coat, care shall be taken to prevent splattering of adjacent pavement, curb and gutters or structures. The Contractor shall be responsible for cleaning splattered areas. Prime Coat shall not be applied when the air temperature is below 60 F and falling, but it may be applied when the air tempera- ture is above 50 F and rising; the air temperature being taken in the shade and away from artificial heat. Asphaltic material shall not be placed when general weather conditions, in the opinion of the Engineer, are not suitable. The distributor shall have been recently calibrated and the Engineer shall be furnished an- accurate and satisfactory record of such calibration. After beginning the work, should the yield on the asphaltic material applied appear in error, the distributor shall be calibrated in a manner satisfactory to the Engineer before proceeding with the work. The Contractor shall be responsible for the maintenance of the surface until the work is accepted by the Engineer. No traffic, hauling or placement of any subsequent courses shall be permitted over the freshly applied prime coat. All storage tanks, piping, retorts, booster tanks and distributors used in storing or handling asphaltic material shall be kept clean and in good operating condition at all times and they shall be operated in such a manner that there will be no contamination of the asphaltic material with foreign material. It shall be the responsibility of the Contractor to provide and maintain in good working order a recording thermometer at the storage healing unit at all times. The Engineer will approve the temperature of application based on the temperature - viscosity relationship that will permit applica- tion of the asphalt within the limits recommended in Item No. 301, "Asphalts, Oils and Emulsions ". The recommended range for the viscosity of the asphalt is 100 to 125 centistokes. The Contractor shall apply the asphalt at a temperature within 15 F of the temperature specified in Item No. 301, "Asphalt, Oils and Emulsions ". Prime coat wit be considered subsidiary to Item No. 340, "Hot Mix Asphaltic Concrete Pavement" unless included as a separate pay item in the contract. When included for payment, it shall be measured at point of delivery on the project in gallons at the applied temperature. The quantity to be paid for shall be the number of gallons used in the accepted prime coat. Page 1 04/17/86 306 306.5 Payment The work performed and materials furnished as prescribed by this item, when included as a contract pay item, will be paid for at the unit price bid per gallon for "Prime Coat ", which price shall be full compensation for cleaning the base course or other sur- face, for furnishing, heating, hauling and distributing the prime coat specified; for all freight involved and for all manipulations, labor, tools, equipment and incidentals necessary to complete the work. Payment, when included as a contract pay item, will be made under: Pay Item No. 306: Prime Coat — Per Gallon. No separate payment will be made for this item. Should be considered subsidiary to Item 340. End 306 04/17/86 Page 2 1 1 1 a a 1 1 1 1 1 1 1 a 1 1 1 1 1 1 1 1 1 a 1 a 1 1 1 1 1 307.1 Description This item shall consist of an appkatfon of asphaltic material on the completed base Course after the prime coat has sufficiently cured, existing pavement, bituminous surface, bridge deck. stab or on a prepared surface as indicated and as directed by the Engineer. 307.2 Materials (1) Asphalt Materials The asphalt material for "Tack Coat" shall meet the requirements tor Cutback Asphalt or Emulsified Asphalt, Item No. 301, "Asphalts, Oils and Emulsions" as listed below. Cutback asphalt shall be made by combining 50 to 70 percent by volume of the asphaltic material as specified for the type of paving mixture with 30 to 50 percent by volume of gasoline and /or kerosene. The type of material shall be selected from the following table: Temperature of Surface, F. 40 -70 Over 70 RS -2 MS -2 RS -2H MS -2H RC -250 MC -70 CRS -2 CMS -2 CRS -2H CMS -21i (2) Water Water shall be furnished by the Contractor and shall be clean and free from industrial wastes and other objectionable matter. (3) Sand Sand may be Grade 1 conforming to Item No. 403, "Concrete Structures" or washed sand, largely siliceous, with the following gradation: 307.3 Construction Methods Percent Retained by Weight Sieve Size Natural Sand No. 8 0 No. 16 0 -40 No. 30 25 -65 No. 50 65 -85 No. 100 85 -98 No. 200 98 -100 Item No. 307 Tack Coat There shall not be more than 50 percent of the aggregate retained between any 2 sieves listed above and not more than 25 percent of the aggregate retained between No. 50 and No. 100 sieve. Tack coat shall not be applied when the air temperature is below 60 F and falling, but it may be applied when the air temperature is above 50 F and rising, the air temperature being taken in the shade and away from artificial heat. Asphaltic material shall not be placed when general weather conditions, in the opinion of the Engineer, are not suitable. Before the tack coat is applied, the surface shall be cleaned thoroughly to the satisfaction of the Engineer. The asphaltic material shall be applied on the clean surface by an approved type of self - propelled pressure distributor, so operated as to distribute the tack coat at a rate not to exceed 0.10 gallon per square yard of surface, evenly and smoothly under a pressure for proper distri- bution. Where the pavement mixture will adhere to the surface on which it is to be placed without the use of a tack coal, the tack coat may be eliminated by the Engineer. All contact surfaces of curbs and structures and all joints shall be cleaned thoroughly and painted with a thin uniform coat of the asphaltic material used for tack coat. The tack coat shall be rolled with a pneumatic tire roller to distribute the asphaltic material uniformly over the tacked area. During the application of tack coat, care shall be taken to prevent splattering of adjacent pavement, curb and gutters or structures. The Contractor shall clean splattered areas. The distributor shall have been recently calibrated and the Engineer shall be furnished an accurate and satisfactory record of such calibration. After beginning of the work, should the yield on the asphaltic material applied appear in error, the distributor shall be calibrated in a manner satisfactory to the Engineer before proceeding with the work. Page 1 04/17/86 307 The Contractor shall be responsible for the maintenance of the surface until the HMAC is placed over the tack coat or the work is accepted by the Engineer. No traffic, hauling or placement of any subsequent courses shall be permitted over the freshly applied prime coat unless it is blotted by the application of sand as directed by the Engineer. All storage tanks, piping, retorts, booster tanks and distributors used in storing or handling asphaltic material shall be kept clean and in good operating condition at all times and they shall be operated in such a manner that there will be no contamination of the asphaltic material with foreign material. It shall be the responsibility of the Contractor to provide and maintain in good working order a recording thermometer at the storage heating unit at all times. The Engineer will select the temperature of application based on the temperature - viscosity relationship that will permit applica- tion of the asphalt within the limits recommended in Item No. 301, "Asphalts, Oils and Emulsions ". The recommended range for the viscosity of the asphalt is 100 to 125 centistokes. The Contractor shall apply the asphalt at a temperature within 15 F 01 160 F. 307.4 Measurement The asphaltic material for "Tack Coat" will be considered subsidiary to Item 340, "Hot Mix Asphaltic Concrete Pavement" unless included as a separate pay item In the contract. When included for payment, "Tack Coat" shall be measured at point of delivery on the project in gallons at the applied temperature. The quantity to be paid for shall be the number of gallons used. 307.5 Payment The work performed and materials furnished as prescribed by this item, when included as a contract pay item, will be paid for at the unit price bid per gallon for "Tack Coat", which price shall be full compensation for cleaning the area to receive the "Tack Coat"; for furnishing, heating, hauling and distributing the tack coat specified; for all freight involved and for all manipulations, labor, tools, equipment and incidentals necessary to complete the work. Payment, when included as a contract pay item, will be made under: Pay Item No. 307: Tack Coat — Per Gallon. No separate payment will be made for this item. Should be considered subsidiary to Item 340. End 307 04/17/86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 a 1 1 1 a L 1 1 1 1 1 1 1 340.1 Description This item to consist of a base course, a leveling -up course, a surface course or a combination of these courses as indicated, each to be composed of a compacted mixture of mineral aggregate and asphaltic material. Pavement to be constructed on previously completed and approved subgrade, base, existing pavement, bituminous surface or in case of a bridge, on prepared slab, as herein specified and in accordance with details indicated. 340.2 Materials (1) General Contractor to furnish materials to meet requirements and final mixture, prior to being placed, to be as specified herein. Contractor to be solely responsible for quality and control of his materials. (2) Mineral Aggregate Mineral aggregate to be composed of course aggregate, fine aggregate and if required, mineral filler. Samples of materials to be submitted for testing as directed by Engineer and approval of both material and source of supply must be obtained from Engineer prior to delivery. Combined mineral aggregate, prior to addition of asphalt and mineral filler, to have a sand equivalent value of not less than 45, when tested in accordance with SDHPT Test Method Tex - 203 -F. Mineral aggregate from each source to meet quality tests specified herein. (a) Coarse Aggregate Item No. 340 Not Mix Asphaltic Concrete Pavement Coarse aggregate to be that part of aggregate retained on No. 10 sieve and to consist of clean, tough, durable fragments of crushed stone or crushed gravel as hereinafter specified of uniform quality throughout. When coarse aggregate is tested in accordance with SDHPT Test Method Tex -217 -F (Part I, Separation of Deleterious Material), amount of organic matter, clay, loam or particles coated therewith or other undesirable materials not to exceed 2 percent and when remaining part of sample is further tested in accordance with SDHPT Test Method Tex -217 -F (Part II, Decantation), amount of material removed not to be more than 2 percent. Coarse aggregate (each coarse aggregate when a combination of Hot Mix Asphaltic 340 08/15/88 Page 1 Concrete Pavement (b materials is used) to have an abrasion of not more than 40 percent loss by weight when subjected to SDHPT Test Method Tex -410 -A Los Angeles Abrasion Test. Stone or gravel to be so crushed that 90 percent of particles retained on No. 4 sieve shall have more than 1 crushed face when tested in accordance with SDHPT Test Method Tex -413 -A (Particle Count). Fine Aggregate Fine aggregate to be that part of aggregate passing No. 10 sieve and to consist of sand, screenings or combination thereof as hereinafter specified of uniform quality throughout. Fine aggregate to consist of durable particles, free from injurious foreign matter. Screenings to be of same or similar material as specified for coarse aggregate. Plasticity index of that part of fine aggregate passing No. 40 sieve to be not more than 6, when calculated in accordance with SDHPT Test Method Tex - 106 -E. Fine aggregate from each source to meet plasticity requirements. When stone screenings are used, they shall meet the following grading requirements: Fine aggregate contained in coarse aggregate stockpiles to meet above requirements when stockpile contains more than 5.0 percent by weight of aggregate passing No. 10 sieve. (c) Mineral Filler Percent by Weight Passing the 3/8 inch sieve 100 Passing the No. 200 sieve 5 - 25 Mineral filler to consist of thoroughly dry stone dust, slate dust, Portland Cement, fly ash, lime or other mineral dust approved by Owner. Mineral filler to be free from foreign and other injurious matter. Fines collected by a baghouse or other air cleaning or dust collecting equipment may be permitted to fulfill a mineral filler addition requirement in amounts up to 2 percent. Addition of these fines may be permitted by Engineer in any case in an amount that can be maintained throughout production and uniform mixtures result. When these fines are permitted in asphaltic mixture, they shall be introduced in same manner prescribed for other mineral fillers. When tested by SDHPT Test Method Tex -200 -F (Dry Sieve Analysis), it shall meet the following grading requirements: Hot Mix Asphaltic 340 08/15/88 Page 2 Concrete Pavement 1 1 1 1 1 1 1 1 r 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (3) Asphaltic Material (a) Paving Mixture (b) Prime Coat or Tack Coat (4) Temporary Pavement Markings 340.3 Paving Mixtures (1) Mix Design Percent by Weight Passing a No. 30 Sieve 95 - 100 Passing a No. 80 Sieve, not less than 75 Passing a No. 200 Sieve, not less than 55 Asphalt for paving mixture to conform to Item No. 301, "Asphalts, Oils and Emulsions ", AC -20. Contractor may employ a Job or Plant Mix Formula which has previously been reviewed by Engineer for materials peculiar to plant selected. Source of paving mix not to be changed during course of work without approval of Engineer. Prime coat or tack coat of asphaltic material conforming to Item Nos. 306, "Prime Coat and 206, "Tack Coat" to be as indicated. These materials to conform to Item No. 301, "Asphalts, Oils and Emulsions ", MC -30, SS -1, CSS -1, or CSS -lh. Temporary pavement markings to conform to Item No. 864, "Abbreviated Pavement Markings ". Job Mix Formula to be designed by Contractor in accordance with SDHPT Bulletin C -14 and SDHPT Test Method Tex -204 -F and tested in accordance with SDHPT Test Method Tex - 207 -F, Tex -208 -F and Tex -227 -F to supplement SDHPT Test Methods Tex -201 -F and Tex - 202 -F, with the exception that laboratory density be determined as a percentage of mixture maximum Ihen,etica] density. Maximum theoretical specific gravity to be determined in accordance with SDHPT Tex -227 -F on trial samples of mixture near optimum asphalt content and conform with requirements herein. Contractor to submit Job or Plant Mix Formula for review on forms acceptable to City for each source of supply and type of mixtures specified. Bulk specific gravity to be determined for each aggregate to be used in design mixture. Mixture to be designed to produce a mixture within density and stability requirements shown below. Uork specified in this section to conform with applicable portions of Section 00344 "Testing Laboratory Services" and to SDHPT procedures. Hot Mix Asphaltic 340 08/15/88 Page 3 Concrete Pavement (2) Types Paving mixtures to consist of a uniform mixture of coarse aggregate, fine aggregate, asphaltic material and mineral filler, if required. When properly proportioned, mineral aggregate shall produce a gradation which will CONFORM TO LIMITATIONS FOR MASTER GRADING GIVEN BELOW FOR TYPE SPECIFIED. Gradation to be determined in accordance with SDHPT Test Method Tex -200 -F (Dry Sieve Analysis) and to be based on aggregate only. Amount of material to conform to limitations shown for paving type specified. Type A (Coarse Graded Base Course) Percent Aggregate by Weight Passing 2 inch sieve 100 Passing 1 3/4 inch sieve 95 to 100 Passing 1 3/4 inch sieve, retained on 7/8 inch sieve 16 to 42 Passing 7/8 inch sieve, retained on 3/8 inch sieve 16 to 42 Passing 3/8 inch sieve, retained on No. 4 sieve 10 to 26 Passing No. 4 sieve, retained on No. 10 sieve 5 to 21 Total retained on No. 10 sieve 68 to 84 Passing No. 10 sieve, retained on No. 40 sieve 5 to 21 Passing No. 40 sieve, retained on No. 80 sieve 3 to 16 Passing No. 80 sieve, retained on No. 200 sieve 2 to 16 Passing No. 200 sieve 1 to 8 Asphaltic material to form from 4.7 to 7 percent of mixture by weight. Type B (Fine Graded Base or Leveling -Up Course) Percent Aggregate by Weight Passing 1 inch sieve 100 Passing 7/8 inch sieve 95 to 100 Passing 7/8 inch sieve, retained on 3/8 inch sieve 20 to 50 Passing 3/8 inch sieve, retained on No. 4 sieve 10 to 40 Passing No. 4 sieve, retained on No. 10 sieve 5 to 25 Total retained on No. 10 sieve 55 to 70 Passing No. 10 sieve, retained on No. 40 sieve 5 to 25 Passing No. 40 sieve, retained on No. 80 sieve 5 to 25 Passing No. 80 sieve, retained on No. 200 sieve 5 to 20 Passing No. 200 sieve 2 to 8 Asphaltic material to form from 3.5 to 7 percent of mixture by weight. Hot Mix Asphaltic 340 08/15/88 Page 4 Concrete Pavement 1 1 1 1 1 1 1 1 1 1 a 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Type C (Coarse Graded Surface Course) Percent Aggregate by Weight Passing 7/8 inch sieve 100 Passing 5/8 inch sieve 95 to 100 Passing 5/8 inch sieve, retained on 3/8 inch sieve 15 to 40 Passing 3/8 inch sieve, retained on No. 4 sieve 10 to 35 Passing No. 4 sieve, retained on No. 10 sieve 10 to 30 Total retained on No. 10 sieve 50 to 70 Passing No. 10 sieve, retained on No. 40 sieve 5 to 25 Passing No. 40 sieve, retained on No. 80 sieve 5 to 25 Passing No. 80 sieve, retained on No. 200 sieve 5 to 20 Passing No. 200 sieve 2 to 10 Asphaltic material to form from 3.5 to 7 percent of mixture by weight. Type D (Fine Graded Surface Course) Percent Aggregate by Weight Passing 1/2 inch sieve 100 Passing 3/8 inch sieve 95 to 100 Passing 3/8 inch sieve, retained on No. 4 sieve 20 to 50 Passing No. 4 sieve, retained on No. 10 sieve 10 to 30 Total retained on No. 10 sieve 50 to 70 Passing No. 10 sieve, retained on No. 40 sieve 5 to 25 Passing No. 40 sieve, retained on No. 80 sieve 5 to 25 Passing No. 80 sieve, retained on No. 200 sieve 5 to 20 Passing No. 200 sieve 2 to 8 Asphaltic material to form from 4.7 to 7 percent of mixture by weight. Type F (Fine Graded Surface Course) Percent Aggregate by Weight Passing 3/8 inch sieve 100 Passing No. 4 sieve 95 to 100 Passing No. 4 sieve, retained on No. 10 sieve 58 to 73 Passing No. 10 sieve, retained on No. 40 sieve 6 to 26 Passing No. 40 sieve, retained on No. 80 sieve 3 to 13 Passing No. 80 sieve, retained on No. 200 sieve 2 to 11 Passing No. 200 sieve 2 to 8 Asphaltic material to form from 4.7 to 7 percent of mixture by weight. (3) Tolerances Aggregate and asphalt portions of paving mixture produced not to vary from Job or Plant Mix Formula by more than tolerances which follow, but in any case allowed tolerance is also restricted to conform to master grading ranges. Method of test for determining Hot Mix Asphaltic 340 08/15/88 Page 5 Concrete Pavement aggregate gradation and asphalt content of mixture to be Test Method Tex -210 -F or other methods of proven accuracy. Passing 7/8 inch sieve, retained on 3/8 inch sieve Passing 5/8 inch sieve, retained on 3/8 inch sieve Passing 3/8 inch sieve, retained on No. 4 sieve Passing No. 4 sieve, retained on No. 10 sieve Total retained on No. 10 sieve Passing No. 10 sieve, retained on No. 40 sieve Passing No. 40 sieve, retained on No. 80 sieve Passing No. 80 sieve, retained on No. 200 sieve Passing No. 200 sieve Asphalt Material (4) Sampling and Testing Percent by Weight Plus or minus 5 Plus or minus 5 Plus or minus 5 Plus or minus 5 Plus or minus 5 Plus or minus 3 Plus or minus 3 Plus or minus 3 Plus or minus 3 • Plus or minus 0.3 Engineer's Laboratory will perform random tests to determine if materials and construction procedures produce a product which meets specifications. Primary sampling point by testing laboratory will be at project site at paving machine. Other testing may be at job site, plant or in trucks as determined by Engineer. Engineer will determine sampling schedules for random testing in accordance with SDHPT Test Method Tex - 225 -F, but in no case will all samples be taken from a single pass of a multipass improvement. Gradation and stability samples will be taken at plant or on project site, as determined by Engineer. A minimum of 3 samples will be obtained for each project. Field density to be determined by taking either 6 inch cores or sections of asphaltic pavement at locations selected by Engineer of each type of completed asphaltic pavement lifts for approximately every 2,000 square yards or part thereof. Acceptability will be based on the mean of job values, unless test results appear inappropriate and additional tests are approved by Engineer. Initial sampling and testing of in place asphalt concrete for entire asphalt thickness on Capital Improvement Projects will be at no cost to Contractor, except for cost of material and restoration of damage by testing. Retesting expense shall conform to Section 00344, "Testing Laboratory Services." Testing Laboratory will identify samples so cores will be evaluated against appropriate sample. (5) Sampling and Testing of Private Development Projects Testing for Private Development Projects to conform to Item No. 1804.04, "General Obligations and Responsiblities" and cost of testing to be borne by Developer. An independent testing laboratory will perform random tests to Hot Mix Asphaltic 340 08/15/88 Page 6 Concrete Pavement 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 • . 1 1 1 1 1 1 1 1 1 1 r 1 1 1 1 1 determine if materials and construction procedures produce a product which meets specifications. Primary sampling point by testing laboratory to be at project site. Other testing may be at job site, plant or in trucks as determined by Engineer. Engineer will determine sampling schedules for random testing in accordance with SDHPT Test Method Tex -225 -F but in no case will - all samples be taken from a single of a multipass improvement. Gradation and stability samples will be taken at plant or on work site, as determined by Engineer. A miminum of 3 samples will be obtained for each project. Field density to be determined by taking either 6 inch cores or sections of asphaltic pavement, at locations selected by Engineer, of completed asphaltic pavement lifts for approximately every 2,000 square yards or part thereof. Acceptability will be•based on the mean of job values for entire asphalt thickness. (6) Stability and Density Mixture to be designed to produce an acceptable mixture within tolerance, at or near optimum density as indicated. Mixture molded in laboratory in accordance with SDHPT Test Method Tex -206 -F and bulk specific gravity of laboratory compacted mixture determined in accordance with SDHPT Test Method Tex -207 -F should have the following percent of maximum theoretical density as measured by SDHPT Test Method Tex -227 -F and stability conforming to SDHPT Test Method Tex - 208 - Laboratory Density Percent Stability, Percent 340.4 Equipment (1) Mixing Plants Min. Max. Optimum Not less than 95 97 Residential Streets 97 35 or more than 55 for other Streets 96 residential streets and not less than 37 or more than 55 for other streets and intersections. Mixing plants that will not continuously produce a uniform mixture meeting requirements of this specification will out be used. (2) Asphaltic Material Heating Equipment Asphaltic material heating equipment to be adequate to heat asphaltic material required to desired temperature without damage to asphalt. Direct fire heating of asphaltic materials to be permitted, provided heater used is manufactured by a reputable concern and there is positive circulation of asphalt throughout heater. Agitation with steam or air will not be permitted. Heating apparatus to be equipped with a recording thermometer with Hot Mix Asphaltic 340 08/15/88 Page 7 Concrete Pavement a 24 hour chart that will record temperature of asphaltic material at highest temperature. (3) Spreading and Finishing Machine Spreading and finishing machine to be of a self - propelled type with electronic control capability and to be capable of producing a high quality, smooth surface that will meet requirements of typical cross section, surface test and not produce segregation. (4) Rollers Contractor to select rollers conforming to Item Nos. 230, "Rolling (Flat Wheel) ", 232, "Rolling (Pneumatic Tire) ", 234, "Rolling (Tamping)" and 236, "Rolling (Proof) ", which can satisfactorily compact asphaltic mixture conforming to lines, grades and typical sections such that asphaltic mixture will not stick to rollers and rollers shall not leave rolling marks, cracks or tears in final surface. (5) Equipment Maintenance Equipment to be maintained in good repair and operating condition. (6) Straightedges and Templates Contractor to provide an acceptable 10 foot straightedge for surface testing. Satisfactory templates to be provided as required by Engineer. 340.5 Stockpiling Aggregates Prior to stockpiling of aggregates, area to be cleaned of trash, weeds and grass and be relatively smooth. Aggregates to be stockpiled in such a manner as to prevent mixing of one aggregate with another. Coarse aggregates for Type B and Type C to be separated into at least 2 stockpiles of different gradation, such as a large coarse aggregate and a small coarse aggregate stockpile and such that grading requirements of specified type will be met when piles are combined in asphaltic mixture. Suitable equipment of acceptable size to be furnished by Contractor to load out stockpiles such that segregation or contamination of aggregates does not occur. 340.6 Mixing (1) General (a) Asphaltic Mixture Asphaltic mixture from each type of mixer to be heated to a temperature between 240 F and 350 F when discharged from mixer and to be adjusted to provide best compaction temperature for weather conditions. Contractor to determine temperature and notify Engineer of value, within above Hot Mix Asphaltic 340 08/15/88 Page 8 Concrete Pavement 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 limitations and mixture, when discharged from mixer not to vary from this selected temperature more than 25 F. (2) Batch Type Mixer In charging of weigh box and in charging of mixer from weigh box, such methods or devices to be used as are necessary to discharge mixer in a manner which will prevent segregation. (3) Dryer -Drum Mixer Amount of aggregate and asphaltic materials entering dryer -drum mixer and rate of travel through mixing unit to be so coordinated that a uniform mixture of specified grading and asphalt content will be produced without segregation. 340.7 Storing Mixture Temporary storing or holding of asphaltic mixture may be used. When discharged from storage bin mixture to have a moisture content not greater than 1 percent by weight and must meet specifications. Moisture content to be determined in accordance with SDHPT Test Method Tex - 212 - Part II. When mixture is stored for more than 15 hours, material may be subject to more frequent testing. 340.8 Construction Methods Contractor to be responsible to produce, transport, place and compact specified paving mixture in accordance with these specifications and provide a safe environment to enable inspection forces to take samples and check plant. Prior to placing Hot Mix Asphaltic Concrete (HMAC) Pavement, base to be proof rolled conforming to Item No. 236 "Proof Rolling ". Soft spots to be repaired and area proof rolled again. Mat thickness of 1 1/2 inches and less not to be placed when temperature of surface on which mat is to be placed is below 50 F. Air temperature to be taken in shade away from artificial heat. Asphaltic mixture, when placed with a motor grader for leveling, not to be placed when air temperature is below 50 F and falling. Asphaltic mixture, except that described above for leveling, to be placed with a spreading and finishing machine. If, after being discharged from mixer and prior to placing, temperature of asphaltic mixture is 50 F or more below temperature established, all or any part of load may be rejected and payment will not be made for rejected material. Any material placed which is too cool to compact properly to be removed and replaced with material which meets specifications. Asphaltic mixture, when used as make -up material in repaving process, to conform to requirements of this item. This material to be deposited on top of heated, scarified, mixed and rejuvenated pavement surface. Hot Mix Asphaltic 340 08/15/88 Page 9 Concrete Pavement Adjacent to flush curbs, gutters, liners and structures, surface to be finished uniformly high so that when compacted it will be slightly above edge of the curb and flush structure. Compacted thickness of asphaltic concrete courses to be as indicated. When surface is to be constructed in stages and traffic is permitted on initial layer, each layer shall be not less than 1 inch. Final lift of HMAC shall not be placed adjacent to an existing cured rounded edge asphalt surface until existing surface has been properly prepared. (1) Prime Coat If a prime coat is indicated, it is to be applied conforming to requirements of Item No. 306, "Prime Coat ", except application temperature to be as provided above. Asphaltic concrete not to be applied on a previously primed flexible base until primed base has cured to satisfaction of Engineer. (2) Tack Coat If a tack coat is indicated, it is to be applied conforming to requirements of Item No. 307, "Tack Coat ". Before asphaltic mixture is placed, surface upon which tack coat is to be placed to be cleaned thoroughly to satisfaction of Engineer. Surface to be given a uniform application of tack coat using asphaltic materials indicated. Tack coat to be applied, as directed by Engineer. Where mixture will adhere to surface of which it is to be placed without use of a tack coat, tack coat may be eliminated by Engineer. Contact surfaces of curbs and structures and joints to be painted with a thin uniform coat of asphaltic material meeting requirements for tack coat. Tack coat to be rolled with a light pneumatic tire roller when directed by Engineer. (3) Compacting Mix to be compressed thoroughly and uniformly compacted immediately after placing to required density. Vibratory and flat wheel compaction rolling to be complete before mat cools below 175 F. Pneumatic tire rolling may be undertaken on mat below 175 F. Rollers must be in good mechanical condition. Necessary precautions to be taken to prevent dropping of gasoline, oil, grease or other foreign matter on pavement, either when rollers are in operation or when standing. It is the intent of this specification that material be placed and compacted to a minimum of 92.0 percent of maximum theoretical density as determined by SDHPT Tex - 227 -F. Engineer will secure 6 inch core samples or sections of completed asphaltic pavement lifts for approximately every 2,000 square yards or part thereof, Hot Mix Asphaltic 340 08/15/88 Page 10 Concrete Pavement 1 1 1 a 1 1 1 1 1 I 1 1 1 1 1 1 r 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 of asphaltic concrete pavement placed. In place density at sampled locations shall be determined by the following equation: Percent in place Density = G A x 100 G T Where G Bulk specific gravity of core when tested in A accordance with Tex -207 -F G = Maximum theoretical specific gravity of combined T cores when tested in accordance with Tex -227 -F Contractor to patch surface where specimens are taken with no extra payment being made for this work. Testing firm will remove asphaltic concrete pavement specimens on day following placement or as soon as practicable thereafter. Other methods of determining in place density which correlate satisfactorily with those results obtained by cores or sections may be used. (4) Surface Tests Surface of collector and arterial street pavements, after compaction, to be smooth and true to established line, grade and cross section and when tested with a 10 foot straightedge placed parallel to centerline of roadway or tested by other equivalent and acceptable means, except as provided herein, maximum deviation not to exceed 1/8 inch in 10 feet and any point in surface not meeting this requirement shall be corrected. Completed surface to meet approval of Engineer for riding surface, finish and appearance. (5) Opening to Traffic Pavement to be opened to traffic as soon as possible after temporary pavement markings or permanent pavement markings are in place as indicated and Engineer concurs to opening. Contractor's attention is directed to fact that all construction traffic allowed on pavement open to public will be subject to City Ordinances and State Laws governing traffic on streets and highways. Surface raveling, cracking, segregation and other defects to be corrected at Contractor's expense as directed by Engineer. Traffic control expense for undertaking repairs will be at Contractor's expense. 340.9 Acceptance Plan (1) General Surface testing to be completed prior to the use of pay adjustment factors for acceptance of gradation, asphalt content, stability, Hot Mix Asphaltic 340 08/15/88 Page 11 Concrete Pavement in place density and pavement thickness. Pay adjustments will be based upon results of tests performed on samples taken in a random manger. When pay adjustments for HMAC reduce unit price to zero, any work left in place shall not be required to conform to "Guarantee Against Defective Work" section of "General Conditions of Agreement ". Pay adjustment for private development work shall conform to Item No. 1804, "General Obligations and Responsibility of the Owner ". (a) Sampling and Testing Sampling is described above. Engineer will deterimine sampling schedules for random testing in accordance with SDHPT Test Method Tex 225 -F. Samples will be taken at plant or on the project site, as determined by Engineer. Engineer may require that either cores or sections of asphaltic pavement be taken at locations selected by Engineer. Determination of acceptability will be based on the mean of job tests performed on each type of asphalt concrete. When considerable time elapses between lifts due to Staged Construction each stage will be determined separately. However, truck loads of asphaltic mixture that are visually inspected by Engineer and can reasonably be expected not to meet specification requirements, such as a mixture containing segregated material, low mixture temperature, a deficiency or excess of asphalt, or otherwise unsuitable for placing on street shall not be used. Any mixtures containing segregated areas, deficiency or excess of asphalt or otherwise unsuitable that is placed on street to be removed and replaced with satisfactory material at Contractor's expense. (2) Overall Good Material and Material Acceptance For limited problem areas, Engineer would retain right to reject portions of work and require areas to be removed and replaced. (3) Gradation and Asphalt Content Acceptability of mixture gradation and asphalt content to be based on the mean of a minimum of 3 tests. If the mean value of acceptance tests of project, for critical sieve or for asphalt content deviates from project design by more than tolerances shown and Engineer determines that material need not be removed and replaced, project may be accepted at a reduced Contract Unit Price as follows: Hot Mix Asphaltic 340 08/15/88 Page 12 Concrete Pavement 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 GRADATION ACCEPTANCE SCHEDULE SPECIFIED DEVIATION OF THE PERCENT CONTRACT UNIT SIEVE SIZE MEAN FROM TEE DESIGN PRICE REDUCTION Total retained on 810 Passing 4200 Z OF DEVIATION FROM INTENDED ASPHALT CONTENT + 5.0 0 5.1 + 10 + 3.0 0 3 .1 + 5 ASPHALT CONTENT ACCEPTANCE SCHEDULE PERCENT CONTRACT UNIT PRICE REDUCTION 0 - 0.4 0 0.41 - 0.5 10 0.51 - 0.6 20 over 0.6 100 and Engineer may require a seal coat or removal and replacement at Contractor's expense. (4) Stability Acceptability of stability to be based on the mean of a minimum of 3 tests. (a) Residential Streets Contractor to produce a consistent mixture. If project is to receive a pay factor of 1.00, the mean value of stabilities not to be less than 35 nor greater than 55, when tested in accordance with SDHPT Test Method Tex - 208 -F. If the mean value falls outside this range a reduction will be made in accordance with the following table: HVEEM STABILITY ACCEPTANCE SCHEDULE PERCENT CONTRACT UNIT STABILITY VALUE PRICE REDUCTION above 60 20 32- 35 -60 10 35 - 55 0 An asphalt mixture in place that has a stability below 32 will not be paid for by Owner and will be removed and Hot Mix Asphaltic 340 08/15/88 Page 13 Concrete Pavement replaced at Contractor's expense. Work may be accepted at no cost to Owner if such request is made by Contractor and approved by Engineer. Replacement of asphalt mixture to be subject to same acceptance plan as original material. (b) Other Streets and Intersections Contractor to produce a consistent mixture. If project is to receive a pay factor of 1.00, the mean value of stabilities not to be less than 37 nor greater than 55, when tested in accordance with Test Method Tex - 208 -F., If the mean value falls outside this range a reduction will be made in accordance with the following table: 35 - 36.9 37 - 55 55.1 - 60 (5) In Place Density HVEEM STABILITY ACCEPTANCE SCHEDULE PERCENT CONTRACT UNIT STABILITY VALUE PRICE REDUCTION 20 0 20 An asphalt mixture in place that has a stability below 35 or above 60 will not be paid for by Owner and to be removed and replaced at Contractor's expense. Project may be accepted at no cost to Owner if such request is made by Contractor and approved by Engineer. Replacement of asphalt mixture to be subject to same acceptance plan as original material. Acceptability of in place density will be based on the mean of a minimum of 3 tests. Density of mixture as determined in accordance with SDHPT Test Method Tex -207 -F and SDHPT Test Method Tex -227 -F will be used to determine compliance and will be measured and averaged. If the mean vn or density tests on work is greater or less than 94.5 and Engineer determines that material need not be removed and replaced, project may be accepted at a reduced unit price as follows: Hot Mix Asphaltic 340 08/15/88 Page 14 Concrete Pavement 1 1 1 1 1 1 1 a 1 1 1 1 1 1 a 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (8) DENSITY Thickness IN PLACE pm' 'T AC SCHEDULE X CONTRACT UNIT PRICE REDUCTION 1 1/2" Thickness Less than 1 1/2" or Greater Thickness 100 100 above 97 92 -97 0 0 90.0 to 91.9 5 0 88.0 to 89.9 25 10 less than 88 100 100 or Engineer may require removal at Contractor's expense and replacement with material which meets Specifications. (6) Segregation Materials placed in which segregation is present to be removed and replaced. (7) Straightedge and Template Contractor to produce a final pavement surface which meets straightedge and template requirements. If techniques produce a pavement which doesn't meet straightedge and template requirements, surface to be overlaid with a 1 inch layer of HMAC unless surface can be corrected by milling which will not reduce thickness of HMAC below minimums indicated. No additional compensation to be made for any corrective work required of Contractor. Contractor to produce a pavement with minimum thickness indicated. Core thickness greater than plan requirements shall be factored in calculation at plan required thickness. Should the mean of core tests indicate a variance in thickness less than plan requirements on all paving, work shall be accepted at a reduced contract unit price, except overlay projects, as follows: VARTANCE PERCENT CONTRACT UNIT PERCENT OF THICKNESS PRICE TO BE PAID 0 - 10 100 10.1 - 16 80 16.1 - 25 60 25.1 - 33 55 over 33 overlay 1 inch min as directed by Engineer If thickness of total asphaltic concrete lifts proves to be less than required, Contractor may replace or overlay deficient areas Hot Mix Asphaltic 340 08/15/88 Page 15 Concrete Pavement 340.10 Measurement Method A Method B 340.11 Payment as agreed by Engineer. Overlays to be a thickness not less than 1 inch. Overlays to require milling of asphalt adjacent to concrete curb and gutters to maintain transverse profile. Asphaltic concrete pavement to be measured by ton (2,000 pounds) of asphaltic concrete pavement of type actually used in completed and accepted work in accordance with plans and specifications. When dryer -drum process is used, measurement of tonnage used to be made on truck scales. Asphaltic concrete pavement to be measured by square yard of specified total thickness of type actually used in completed and accepted work in accordance with plans and specifications. Multiple lifts will be considered as one for square yard measurement purposes. Work performed and materials furnished as prescribed by this item and measured as provided under "Measurement" will be paid for at the`unit prices bid or pay adjusted unit price for "Asphaltic Concrete Pavement ", of types and lifts specified, which prices shall be full compensation for furnishing all materials, freight involved; for all heating, mixing, hauling, cleaning existing base course or pavement, saw cutting, placing asphaltic concrete mixture, rolling and finishing, for all manipulations, labor, tools, equipment, temporary pavement markings and incidentals necessary to complete work. Correcting defective work and subsequent retesting shall be considered subsidiary to Item No. 340, "Hot Mix Asphaltic Concrete Pavement ". Prime coat, when required, will not be measured or paid for directly but shall be considered subsidiary to Item No. 340, "Hot Mix Asphaltic Concrete Pavement ", unless included as a separate pay item in Contract. Tack coat, when required, will not be measured or paid for directly but shall be considered subsidiary to Item No. 340, "Hot Mix Asphaltic Concrete Pavement ", unless included as a separate pay item in Contract. Templates, straightedges, scales and other weighing and measuring devices necessary for proper construction, measuring and checking of work to be furnished, operated and maintained by Contractor at his expense. Saw cutting as indicated or as directed by Engineer will not be measured or paid for directly, but to be considered subsidiary to Item No. 340, "Hot Mix Asphaltic Concrete Pavement ". Hot Mix Asphaltic 340 08/15/88 Page 16 Concrete Pavement 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 • 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1. 1 Payment for work meeting specifications will be made under one of the following: Pay Item No. 340 -A: Hot Mix Asphaltic Concrete Pavement, Type - Per Ton. Pay Item No. 340 -AL: Hot Mix. Asphaltic Concrete Pavement, Type , Level -up Course - Per Ton. Pay Item No. 340 -AM: Hot Mix Asphaltic Concrete Pavement, Type , Make -up Course - Per Ton. Pay Item.No. 340 -B: Hot Mix Asphaltic Concrete Pavement, 2: In., Type D - Per Square Yard. Pay Item No. 340-C: Hot Mix Asphaltic Concrete Pavement, 11 Ia., End Type D - Per Square Yard. . Ref: 206, 230, 232, 234, 236, 301, 306, 307, 864, 1804 Hot Mix Asphaltic 340 08/15/88 Page 17 Concrete Pavement 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 401.1 Descilption Item No. 401 Structural Excavation and Backfill This item shall consist of the excavation for the placing of structures, except pipe Sewers, for the disposal of such excavated material and for the backfilling around completed 'structures to the Level of the.original ground or grade indi fed. The work shall include all necessary pumping or bailing, sheathing. drainage and the construction and removal of any required cofferdams. Unless Otherwise indicated, the work included hereunder shall provide for the removal of old structures or portions thereof (abut- ments, buildings, foundations, wingwalls, piers, etc.), trees and at other obstructions necessary to the proposed construction. Where excavation is not classified, it will be grouped under "Unclassified Structurat Excavation ", which shall include the removal of all materials encountered regardless of their nature or the manner in which they are removed. — Where excavation is classified, 0 shall be classed as "Common Structural Excavation" or "Rock Structural Excavation" in accor- dance with the following criteria: "Common Structural Excavation" shall include the removal of all materials other than rock. "Rock Structural Excavation" shall include the removal of firm and compact materials that cannot be excavated with power equipment, without first being loosened or broken by blasting, sledging or drilling. 401.2 Materials (1) Sand (a) Fine aggregate sand shall be Grade 1 conforming to Item No. 302, "Aggregates for Surface Treatments ". (b) Native Sand shall be local material obtained from approved sources and subject to the approval of the Engineer. (2) Flexible Base Flexible base shall conform to Item No. 210, "Flexible Base". (3) Lime Stabilized Base Lime stabilized base shall conform to Item No. 202, "Hydrated Lime and Lime Slurry" and Item No. 203, "Lime Treatment for Materials in Place ". (4) Concrete Base Concrete base shall conform t0 Class J Concrete, Item No. 403, "Concrete for Structures ". (5) Granular Material (a) Coarse aggregate shall conform to Item No. 403, "Concrete for Structures ". (b) Foundation Rock Foundation rock shall be well graded, hard, durable coarse aggregate ranging in size from 2 to 6 inches. (c) Pea Gravel Pea gravel shall consist of hard, durable, opaque gravel, free of clay, loam, sand or other foreign substances, ranging in size from 1 inch to 3e inch conforming to ASTM C 33. (6) Cement Stabilized Rockfill Cement Stabilized base shall conform to Class J Concrete, Item Na 403, "Concrete for Structures" 401.3 Construction Methods Excavation shall be done In accordance with the lines and depths indicated or as established by the Engineer. Un- less otherwise indicated or permitted by the Engineer no excavation shall be made outside a vertical plane 3 feet from the footing lines and parallel thereto. (2) Excavation shall conform to elevations indicated or raised or lowered by written order of the Engineer, when such alterations are judged proper. When deemed necessary to increase or decrease the plan depth of footings, the al- ( 1 ) 401 Rev. 09130187 Page 1 Structural Excavation and Backfill terations in the details of the structure shall be as directed by the Engineer. The Engineer shall have the right to substitute revised details resulting from consideration of changes in the design conditions. (3) When a structure is to rest on an excavated surface other than rock, special care shall be taken not to disturb the bottom of the excavation and the final excavation to grade shall not be performed until just before the footing is placed. Equipment selected and used by the Contractor for excavation which disturbs what was otherwise stable subgrade material. as shown by laboratory tests, will not be used as a justification for payment for excavating to extra depth or for payment for stabilizing materials which may be ordered by the Engineer. (4) Excavated material required.to be used for backfill may be deposited by the Contractor in storage piles as indicated or at points convenient for its rehandling during the backfilling operations, subject to the approval of the Engineer, who may require that the survey center line of the structure. and the transverse or hub line of any unit of the structure be kept free of any obstruction. The Contractor shall adjust any stockpiles, to facilitate surveying and the work of other Contractors working in the immediate proximity, as directed by the Engineer. (5) Excavated material required tp be wasted shall be disposed of as directed by the Engineer, in a manner which will not obstruct the stream or otherwise impair the efficiency or appearance of the structure or other part of the work. (6) For all single and multiple box culverts, pipe culverts, pipe arch culverts and box sewers of all types, where the soil encountered at established footing grade is a quicksand. muck or similar unstable material. the following procedure shall be used unless other methods are indicated: The depth to which unstable material is removed will be determined by the Engineer. It will not exceed 2 feet below the tooting of culverts that are 2 feet or more in height and will not exceed the height of culverts for those less than 2 feet high. Excavation shall be carried at least 1 foot horizontally beyond the limits of the structure on all sides. All unstable soil removed shall be replaced with suitable stable material, in uniform layers of suitable depth for compaction as directed by the Engineer. Each layer shall be wetted, if necessary and compacted by rolling or tamping as required to provide a stable foundation for lhe.structure. Soil which has sufficient stability to properly sustain the adjacent sections of the roadway embankment will be considered a suitable foundation material. • When, in the opinion of the Engineer, it is not feasible to construct a stable footing as outlined above, the Contractor shall construct it by the use of special materials, such as flexible base, cement stabilized base, cement stabilized backtill or other material, as directed by the Engineer. This work will be paid for as provided below. Special materials used or additional excavation made for the Contractor's convenience to expedite the work will not be paid for directly, but shall be subsidiary to the various classes of structural excavation. In addition, if the Contractor's construction methods and equipment creates conditions necessitating usage of special mate- rials or additional excavation. the work and materials will not be paid for directly, but shall be subsidiary to the various classes of structural excavation. , (7) When the material encountered at footing grade of a culvert is found to be partially rock or incompressible material and partially a compressible soil which is satisfactory for the foundation, the incompressible material shall be re- moved for a depth of 6 inches below the footing grade and backfilled with a compressible material similar to that used for the rest of the structure. ( 401 Rev. 09130187 When the material encountered at footing grade of a bridge bent or pier is found to be partially of rock or in- compressible material and partially of a compressible material, the foundation shall not be placed until the Engineer has inspected the footing and authorized such changes found necessary to provide an adequate foundation. 401.4 Cofferdams The term cofferdams. whenever used in this specification, designates any temporary or removable structure constructed to hold the surrounding earth, water or both, out of the excavation, whether the structure is formed of earth, timber, steel, Concrete or a combination of these. It includes earthen dikes, timber cribs, any type of sheet piling, removable steel shells and the like and all necessary bracing and it shall be understood also to include the use of pumping wells or well points for the same purpose. The cost of cofferdams, when required, shall be included as a part of the bid price for excavation. It is the intent of this specification to require that a suitable cofferdam which will provide a sate work area be provided for all excavation when necessary in order to control water so that the foundation may be placed in a dry condition, as to preclude sliding and caving of the walls of the excavation. Where no ground or surface water is encountered, the cofferdam need be sufficient only to protect the workmen and to avoid cave -ins or slides beyond the excavation limits. The type. strength and clearance of cofferdams, insofar as such details affect the character of the finished work and the safety of laborers and inspectors working therein, will be subject to review by the Engineer, but the Engineer's review shall in no way relieve the Contractor of responsibility for the adequacy and safety of the cofferdam design. Other details or design will be left to the choice of the Contractor. who will be responsible for the successful completion of the work. Approval of the drawings by the Engineer will not relieve the Contractor of responsibility in any manner. The interior dimensions of cofferdams shall provide suffi- Page 2 Structural Excavation and Backfill 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 dent clearance for the construction and removal of any required forms and the inspection of their exteriors and to permit pumping outside of the forms. Unless otherwise indicated, cofferdams shall be removed by the Contractor after the completion of the substructure without disturbing or marring the structure. 401.5 Pumping or Bailing The manner of pumping or bailing from the interior of any foundation enclosure shall preclude the possibility of the movement of water through or alongside any concrete being placed. No pumping or bailing will be permitted during the placing of concrete or for a period of at least 24 hours thereafter, unless from a suitable sump separated from the concrete work by a water -tight wall. 401.6 Backfilling (1) General As soon as practicable, all portions of excavation not occupied by the permanent structure shall be backfllled. Back - fill material shall be free from large or frozen lumps, wood or other extraneous material. That portion of backfill which will not support any portion of completed roadbed or embankment shall be placed in layers not more than 10 inches in depth (loose measurement) and shall be compacted 10 a minimum of 95 percent of maximum density as determined by SDHPT Test Method Tex -114 -E and then re- excavated to the proper grade and dimensions. If the excavation has been made through a hard material resistant to erosion, the backfill around piers and in front of abutments and wings may be ordered by the Engineer to be of stone or lean concrete. Unless otherwise indicated, such backfill shall be paid for as extra work. That portion of the backfill which will support any portion of the roadbed or embankment shall be placed in uniform layers not more than 10 inches in depth (loose measurement) and shall be compacted to a minimum of 95 percent of maximum density as determined by SDHPT Test Method Tex - 114 -E and then re- excavated to the proper grade and wetted uniformly to the moisture content required to obtain the specified density and shall be compacted to that density by means of mechanical tampers or rammers, except that the use of rolling equipment of the type generally used in compaction embankments will be permitted on portions which are accessible to such equipment. All portions of embankment too close to any portion of a structure to permit compaction by the use of the blading and rolling equipment used on adjoining sections of embankment, shall be placed and compacted in the same manner as specified above for backlit! material. These provisions require the mechanical compaction by means of either rolling equipment or mechanical tampers or rammers, of all backfill and embankment adjoining the barrels and wingwalls or culverts and adjoining all sides of bridge abutments and retaining walls, regardless of whether or not such em- bankments or backfill is above or below the original surface of the ground and regardless of whether the excavation at structure site was performed conforming to Item Na 111, "Excavation, this item, "Structural Excavation", Item No. 110, "Street Excavation" or Item No. 120, "Channel Excavation". Unless otherwise Indicated, hand tamping will not be ac- cepted as an altemate for mechanical compaction. As a general rule, material used in filling or backfilling the por- tions described in this paragraph shall be an earth, free of any appreciable amount of gravel or stone particles larger than 4 inches in greater dimension and of a gradation that penults thorough compaction. When, in the opinion of the Engineer, such material is not readily available, the use of rock or gravel mixed with earth will be permitted, provided that no particles larger than 12 Inches or smaller than 6 inches may be used. The percentage of fines shall be suffi- cient to fill voids and insure a uniform and thoroughly compacted mass of proper density. When required by the plans or by written order of the Engineer, cement stabilized material shalt be used for backfilling. 401 Rev. 09/30/87 All portions of fill and backfill described in the preceding paragraph shall be compacted to the same density require- ments specified for the adjoining sections of embankment in accordance with the governing specifications therefor. Where no embankment is involved on the project and no specifications therefore are included in the contract, all backfill shall be compacted to a density comparable with the adjacent undisturbed material. No backfill shall be placed against any abutment or retaining wall until such structure has been in place at least 7 days. No backfill shall be placed adjacent to or over single and multiple boxes until the top slab has attained 500 psi flexural strength. Backfill placed around abutments and piers shall be deposited on both sides to approximately the same elevation at the same time. Care shall be taken to prevent any wedging action of backfill against the structure and the slopes bounding the excavation shall be stepped or serrated to prevent such action. (2) Pipe Culverts The following requirements shall apply to the backfilling of pipe culverts in addition to the pertinent portions of the general requirements given in the preceding section. Page 3 Structural Excavation and Backf ill Selected materials from excavation, borrow or other approved material shall be wetted, if required and placed along both sides of the pipe equally, in uniform layers not exceeding 6 inches in depth (loose measurement) and thor- oughly compacted so that there shall be a berm of thoroughly compacted material on each side of the pipe. The method and degree of compaction shall be the same as specified above for portions of backtill within the limits of embankment or roadbed. Fusing and/or backfiiting shall be continued in this manner to the elevation of the top of the pipe. Special care shall be taken to secure thorough compaction of the material placed under the haunches of the pipe. All rill or backtll below the top of pipe shall be compacted mechanically in the manner and to the density prescribed above, regardless of whether or not such material is placed within the limits of the embankment or roadbed. In the case of pipe placed in trenches, that portion of the back ill above the top of the pipe which supports embankment or the roadbed shall receive mechanical compaction as specified above and the portion which will not support any portion of embank- ment or roadbed shall be placed in layers not more than 10 inches in depth (loose measurement) and shall be com- pacted by whatever means the Contractor chooses, to a density comparable with the adjacent, undisturbed material. Embankments above the top of pipe shall be placed conforming to Item No. 132, "Embankments". During construction adequate cover must be provided to protect the structure from damage Whenever excavation is made for installing pipe culverts or box sewers across private property or beyond the limits of the embankment, the top sod removed in excavating the trench shall be kept separate and replaced as nearly as feasible in its original position and the entire area involved in the construction operations shall be restored to a pre - seMabte condition. (3) Cement Stabilized BacMill When indicated, trenches shall be backfilled to the elevations shown with Cement Stabilized Backfill. Cement Stabilized Bac!dill below the spring line of pipe culverts shall be sufficiently plastic to completely fill all voids in the trench. The pipe shall be held in alignment by jacks or other suitable means to prevent the mortared joints from cracking due to displacement caused by placing the backtill material. Cement Stabilized Backfill above the spring line of pipe culverts may be dry enough to be transported without special mixing equipment. On structures other than pipe culverts, special mixing equipment will not be required to transport the cement stabi- lized backlit! unless otherwise indicated. Hand-operated mechanical tampers may be used with approval of the Engineer for compacting this backtill. 401.7 Measurement Unless otherwise indicated, structural excavation for pipe headwalls, inlets, manholes, culvert widening (extensions), bridge abutments and side road and private entrance pipe culverts will not be measured but shall be considered subsidiary to the various bid items. Determination of quantities for structural excavation shall be made by the method of average end -areas using the following limits to establish templates for measurement. (1) For all structures requiring measurement, except the barrels of pipe culverts, no material outside of vertical planes 1 foot beyond the edges of the footings and parallel thereto will be included. (2) For the barrels of pipe culverts of 42 inches or less nominal or equivalent diameter, no material outside of vertical planes 1 foot beyond the horizontal projection of the outside surfaces of the pipe and parallel thereto will be included. For the barrels of pipe culverts more than 42 inches in nominal or equivalent diameter, no material outside of vertical planes located 2 feet beyond the horizontal projection of the outside surfaces of the pipe and parallel thereto will be included. (3) If a cofferdam, as herein defined, is used, the limitations indicated above shall apply just as it no cofferdams were used. (4) Where excavation in addition to that allowed for the footings is required for other portions of the structure, such as for the cap, cross strut or tie beam of a pier or bent or for the superstructure, measurements for such additional excava- tion will be limited laterally by vertical planes 1 foot beyond the face of the member and parallel thereto and vertically to a depth of 1 loot below the bottom of such member. Except as allowed by the above conditions, no account will be taken of any excavation necessary for placing Corms I or falsework. (5) (6) Except at side road culverts, all street excavation called for on the contract plans at all structure sites shall be as- sumed to be completed before starting the structural excavation and the measurement of structural excavation will include only material below or outside the limits of the completed street excavation. Excavation for side road and private entrance pipe culverts will not be measured for payment but shall be subsidiary to the Item. 401 Rev. 09/30/87 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Page 4 Structural Excavation and Backfill t 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 ( 401 Rev. 09 /30/87 On all structures of bridge classification where the contract plans call for channel excavation at the structure site. it shall be assumed to have been completed before starting the structural excavation and the measurement of struc- tural excavation will include only material below or outside the limits of the completed channel section. The method of measurement for payment will be in accordance with this procedure regardless of the actual construction methods followed. (8) Where excavation diagrams are indicated, they shall take precedence over these provisions. (9) Measurement will not include materials removed below footing grades to compensate for anticipated swellage due to pile driving and it wit not include material required to be removed due to swellage beyond the specified limits during pile driving operations. (10) Measurement will not include additional yardage caused by slips, slides, cave-ins, sittings or fillings due to the action of the elements or the carelessness of the Contractor. Water will not be classed as excavated material. (11) Where rock, other incompressible or unstable. material Is undercut to provide suitable foundation for pipe or box culverts. such material below grade, ordered by the Engineer to be removed, will be measured for payment. (12) Except for any required undercut, quantities for "Structural Excavation ". as indicated, shall be considered as final quantities and no further measurement will be required, unless the alignment, grades or structure locations are re- vised by the Engineer during construction. Final determination of quantities for individual structures will be made, if in the opinion of the Engineer or upon evidence furnished by the Contractor, substantial variations exist between quantities indicated and actual quantities due to changes in cross sections or apparent errors. Excavation quantities for foundations indicated where cofferdams are required shall be considered as final quantities and no further mea- surement will be made. (13) For any footing, foundation or other structure unit within the scope of this specification, additional measurement will be made of the volume of excavation involved in the lowering or raising of the elevation of a looting, foundation or structure unit, when such grade change is authorized by the Engineer. Measurement will be made by the addition to or the deduction from, the original quantities for the volume of excavation involved in the authorized grade change. (14) Cement stabilized backfill shall be measured by the backfill diagram as indicated. The quantity of "Cement Stabi- lized Backfill" as indicated shall be considered as final quantities and no further measurement will be required, un- less alignment or grade elevations as indicated are revised by the Engineer. If such revisions result in an increase or decrease in this quantity, the final quantity will be revised by the amount represented by the changes in alignment or grade elevations. 401.8 Payment Payment for all work prescribed under this item and measured as provided above will be made at the unit price bid per cubic yard for the particular class of excavation specified on the plans in the amount shown on the plans and in the proposal. Payment for revised quantities will be made as specified above and for the removal of unstable and incompressible material as noted below. Payment for removal and replacement of unstable or incompressible material below the footing grades of culverts and box sewers as indicated above will be made as follows: When indicated or the Engineer directs the use of special materials such as flexible base, cement stabilized base, cement stabilized backfill or other special material, payment for excavation below the footing grades shall be made at the unit price bid for "Unclassified Structural Excavation", "Common Structural Excavation" or "Rock Structural Excavation ", as the case may be. Payment for furnishing, hauling, placing and compacting the flexible base, cement stabilized base, cement stabilized backfill or other special material will be made at the unit price bid for these items in the bid or in accordance with pertinent provisions for extra work. Where special materials are not required or specified, the removal and replacement of the unstable material will be per- formed as described above. Payment therefore will be made at a price equal to 200 percent of the unit price bid per cubic yard for "Unclassified Structural Excavation ", "Common Structural Excavation" or "Rock Structural Excavation ", as the case may be, which price shall be full compensation for removing the unstable or incompressible material, furnishing, hauling, placing and compacting suitable material required to replace it and for all labor, equipment, tools and incidentals necessary to complete the work. Payment for "Concrete Base" and "Cement Stabilized Backfill" measured as prescribed above shall be made at the unit price bid per cubic yard of "Cement Stabilized Backfill ". Such payment shall be full compensation for furnishing all materials, tools, labor, equipment, sheathing and incidentals required to perform the applicable work prescribed herein. Should the Engineer judge it necessary to lower the structure footings to an elevation below the grade indicated, payment for the "Unclassified Structural Excavation ", "Common Structural Excavation" or "Rock Structural Excavation" as the case may be, required below plan grade down to and including an elevation 5 feet below plan grade for any individual footing will be made at a unit price equal to 115 percent of the contract unit bid price. Payment for the excavation from an elevation over 5 feet below plan grade down to and including an elevation 10 feet below plan grade will be made at a unit price equal to 125 percent of the Page 5 Structural Excavation and Backfill contract unit bid price for "Unclassified Structural Excavation ", "Common Structural Excavation" or "Rock Structural Excavation" as the case may be. No increase in unit price will be allowed for other bid items of the contract and no additional compensation will be allowed for any required cofferdam adjustments made necessary by such lowering of footings. These provisions shall not . apply to the lowering of culverts, except when the flow line grade is lowered 1 loot or more below plan grade. In cases where the extra depths required for any footing or footings exceeds 10 feet, a supplemental agreement shall be made covering the quantities removed from depths in excess of 10 feet below plan grade. No direct payment will be made for filling or backfilling around structures. Payment for the backfilling and compacting of areas which were removed as structural excavation shall be included in the unit prices bid for the various classes of structural excavation. At the end of each estimate period, the Engineer shall determine the completed portion of the total work under Item No. 401 "Structural Excavation and Backfill" and payment shall be made accordingly. Filling or backfilling of areas above the natural ground level or above the limits of street excavation or channel excavation sections shall be considered as Item No. 132, "Embankment" and payment therefore shall be included in the unit prices bid for the various classes of Item No. 110, "Street Excavation", Item No 120, "Channel Excavation" or Item. No. 130, "Borrow". Where no channel excavation is provided for at culvert sites and where it Is necessary to excavate beyond the limits of structural excavation, as herein described in order that the culvert may function property, such excavation shall be included with structural excavation or shall be subsidiary to structural excavation and backfiil as may be indicated. Payment for all work prescribed under this item shall be full compensation for all excavation and backflll including compaction, all soundings, constructing all cofferdams, all dewatering and for fumishing all materials, labor, equipment, tools, sheathing, brac- ing, cofferdams, pumps, drills, explosives and incidentals necessary to complete the work, except for specific allowances stated above. Ref: 110, 111, 120, 130, 132, 202, 203, 210, 302, 210, 403 No separate payment will be made for this item. End 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item N0. 403 Concrete for Structures 403.1 Description This item to consist of the quality of concrete materials, storing and handling of these materials and for the proportioning and mixing of concrete for buildings, bridges, culverts, slabs, prestressed concrete and incidental concrete construction. Concrete shall be composed of Portland Cement, aggregates (fine and coarse), admixtures if desired or required and water, proportioned and 1 mixed as hereinafter provided. Accelerating admixtures will not be permitted without express approval of Engineer /Architect. 403.2 Materials (1) Cement Portland Cement to conform to ASTM C 150, Type I (General Purpose), Type II (General Purpose with moderate sulfate resistance) and Type III (High Early Strength). ' Either Type I or II cement to be used unless Type II is indicated. Except when Type II is indicated, Type III cement may be used when the anticipated air temperature for the succeeding 12 hours will not exceed 60 F. Type III cement may be used in all precast prestressed concrete except in piling when Type II cement is required for substructure concrete. All cement used in a monolithic placement to be of the same type. (2) Mixing Water Water for use in concrete and for curing to be potable water free from oils, acids, organic matter or other deleterious substances and shall not contain more than 1,000 parts per million of chlorides as Cl nor more than 1,000 parts per million of sulfates as SO The Contractor may request approval of water from other sources. ' The Contractor to arrange for samples to be taken from the source and tested at his expense. Tests to be made conforming to AASHTO Method T 26, "Standard Method of Test for Quality of Water to be used in Concrete" except where such methods are in conflict with provisions of this specification. (3) Coarse Aggregate Coarse aggregate to consist of durable particles of gravel, crushed blast furnace slag, crushed stone or combinations thereof; free from frozen material or injurious amounts of salt, alkali, vegetable matter or other objectionable material either free or as an adherent coating and its quality shall be reasonably uniform throughout. It shall not contain more than 0.25 percent 403 06/10/88 1 Concrete for Structures by weight of clay lumps, nor more than 1.0 percent by weight of shale nor more than 5 percent by weight of laminated and /or friable particles when tested conforming to SDHPT Test Method Tex - 413 -A. It shall have a wear of not more than 40 percent when tested conforming to SDHPT Test Method Tex - 410 -A. Unless otherwise indicated, coarse aggregate may be subjected to 5 cycles of the soundness test conforming to SDHPT Test Method Tex - 411 -A. The loss shall not be greater than 12 percent when sodium sulfate is used or 18 percent when magnesium sulfate is used. Permissible sizes and gradation of aggregate to be governed by Tables 1, 2 and 4. Except when exposed aggregate surfaces are required, coarse aggregate gradation will be as indicated. When tested by approved methods, coarse aggregate, including combinations of aggregates when used, to conform to grading requirements shown in Table 1. Table 1 Coarse Aggregate Gradation Chart Aggregate Nominal Percent Retained on Each Sieve Grade No. Size 2 1/2" 2" 1 1/2" 1" 3/4" 1/2" 3/8" No. 4 No.8 1 2 1/2 0 0 -20 15 -50 60 -80 95 -100 2 (467)* 1 1/2 0 0 -5 30 -65 70 -90 95 -100 3 1 0 0 -5 10 -40 40 -75 95 -100 4 (57)* 1 0 0 -5 40 -75 90 -100 95 -100 5 (67)* 3/4 0 0 -10 45 -80 90 -100 95 -100 6 (7) * 1/2 0 0 -10 30 -60 85 -100 7 3/8 0 5 -30 75 -100 8 No. 4 0 0 -5 35 -60 90 -100 * Numbers in parenthesis indicate that these gradations conform to ASTM C 33. Aggregate shall be washed. The Loss by Decantation (SDHPT Test Method Tex - 406 -A), plus allowable weight of clay lumps, shall not exceed 1 percent or value indicated, whichever is smaller. If material finer than the 200 sieve is definitely established to be dust of fracture of aggregates made primarily from crushing of stone, essentially free from clay or shale as established by SDHPT Test Method Tex - 406 -A, the percent may be increased to 1.5. (4) Fine Aggregate Fine aggregate to consist of clean, hard, durable and uncoated particles of natural or manufactured sand or a combination thereof, with or without a mineral filler. It is to be free from frozen material or injurious amounts of salt, alkali, vegetable 403 06/10/88 2 Concrete for Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 matter or other objectionable material and it shall 'sot contain more than 0.5 percent by weight of clay lumps. Whenn'subjected to color test for organic impurities SDHPT Test Method Tex- 408 -A, it shall not show a color darker than standard. Fine aggregate to produce a mortar having a tensile strength equal to or greater than that of Ottawa sand mortar when tested conforming to SDHPT Test Method Tex- 317 -D. Acid insoluble residue of fine aggregate used in slab concrete subject to direct traffic shall not be less than 28 percent by weight when tested conforming to SDHPT Test Method Tex- 612 -J. When tested by approved methods, fine aggregate or combinations of aggregates including mineral filler to conform to grading requirements shown in Table 2. Table 2 Fine Aggregate Gradation Chart Aggregate Percent Retained on Each Sieve Grade No. 3/8" No. 4 No. 8 No. 16 No. 30 No. 50 No. 100 No. 200 1 0 0 -5 0 -20 15 -50 35 -75 65 -90 90 -100 97 -100 NOTE 1: Where sand equivalent is greater than 85, retainage on No. 50 sieve may be 65 to 94 percent. NOTE 2: Where manufactured sand is used in lieu of natural sand, the percent retained on No. 200 sieve shall be 94 to 100. Fine aggregate will be subjected to Sand Equivalent Test SDHPT Test Method Tex - 203 -F. Sand equivalent shall not be less than 80 nor less than value indicated, whichever is greater. For Class A, C, E and F Concrete, fineness modulus as defined below for fine aggregates to be between 2.30 and 3.10 for grade 1 only. For Class H Concrete, fineness modulus of fine aggregates to be between 2.40 and 2.90. Fineness modulus will be determined by adding the percentages by weight retained on the following sieves and dividing by 100; Nos. 4,8, 16, 30, 50 and 100. (5) Mineral Filler Mineral filler to consist of stone dust, clean crushed sand or other approved inert material. 403 06/10/88 3 Concrete for Structures (6) Mortar (Grout) Mortar for repair of concrete to consist of 1 part cement, 2 parts finely graded sand and enough water to make the mixture plastic. When required to prevent color difference, white cement shall be added to produce color required. When required by Engineer /Architect, latex adhesive to be added to mortar. (7) Admixtures Calcium chloride will not be permitted. Air entraining, retarding and water reducing admixtures may be used in all concrete and to conform to requirements of Item No. 405, "Concrete Admixtures ". 403.3 Storage of Cement Cement to be stored in well ventilated, weatherproof buildings or approved bins which will protect it from dampness or absorption of moisture. Storage facilities to be ample and each shipment of packaged cement to be kept separated to provide easy access for identification and inspection. Engineer /Architect may permit small quantities of sacked cement to be stored in the open for a maximum of 48 hours on a raised platform and under waterproof covering. 403.4 Storage of Aggregate Method of handling and storing concrete aggregate to prevent contamination with foreign materials. If aggregates are stored on ground, sites for stockpiles to be clear of all vegetation. Bottom 6 inch layer of aggregate not to be disturbed or used without recleaning. When conditions require use of 2 or more sizes of aggregates, they shall be separated to prevent intermixing. Where space is limited, stock piles to be separated by physical barriers. Methods of handling aggregates during stockpiling and subsequent use to be such that segregation will be minimized. Aggregate to be stockpiled at least 24 hours to reduce the free moisture content. 403.5 Measurement of Materials Measurement of materials, except water, used in batches of concrete to be by weight or an accurate volumetric measuring method approved by Engineer /Architect. Fine aggregate, coarse aggregate and mineral filler to be weighed separately. Where bulk cement is used it shall be weighed separately but batch weighing of sacked cement will not be required. Where sacked cement is used, quantities of material per batch to be based upon using full bags of cement. Batches involving use of fractional bags will not be permitted. 403 06/10/88 4 Concrete for Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 • Allowances shall be made for water content in aggregates.' Bags of cement varying more than 3 percent from the specified weight of 94 pounds may be rejected and when the average weight per bag in any shipments, as determined by weighing 50 bags taken at random, is less than the net weight specified, the entire shipment may be rejected. If shipment is accepted, Engineer will adjust the concrete mix to a net weight per bag fixed by an average of all individual weights which are less than the average weight determined from total number weighed. 403.6 Classification and Mix Design Contractor to furnish mix design, using a Coarse Aggregate Factor acceptable to Engineer, for class(es) of concrete specified. Mix shall be designed by a qualified commercial laboratory to conform with requirements contained herein and conforming to SDHPT Bulletin C -11 and supplements thereto. Contractor to perform, at his own expense, the work required to substantiate the design, including testing of strength specimens. Complete concrete design data to be submitted to Engineer for approval. Mix design will be valid for a period of 1 year and to be re- established for projects which extend beyond the 1 year period or when there is a change in materials. Contractor to determine and measure batch quantity of each ingredient, including all water, not only for batch designs but for all concrete produced for the project so that the mix conforms to these specifications and any other requirements indicated. In lieu of the above mix design responsibility, Contractor may request approval of a current design previously accepted by the City, if it can be shown that no substantial change in any ingredients has been made. However, this will not relieve Contractor of responsibility of providing concrete meeting the requirements of these specifications. Coarse aggregate factor shall not be more than 0.82 except that when voids in the coarse aggregate exceed 48 percent of total dry loose volume, coarse aggregate factor shall not exceed 0.85. Coarse aggregate factor shall not be less than 0.68. If strength required for the class of concrete being produced is not secured with cement specified in Table 4, Contractor may use an approved water reducing and retarding admixture or he shall furnish aggregates with different characteristics which will produce required results. Additional cement may be required or permitted as a temporary measure until redesign is checked. Approved water reducing or retarding agents may be used with all classes of concrete at option of Contractor and will be required for hot weather concreting and for continuous slab placement. Agents to conform to Item No. 405, "Concrete Admixtures" and Item No. 410, "Concrete Structures ". When a retarding admixture is required for hot weather concreting, the amount to be used to conform to Item No. 405, "Concrete Admixtures ". When used in continuous slab placement, the amount to be used will be established by several trial batches with varying retarder content and 403 06/10/88 5 Concrete for Structures simulating placing conditions to be encountered. When water reducing or retarding agents are used at option of Contractor, reduced dosage of admixture will be permitted. Entrained air to conform to Table 4. Concrete to be designed to entrain 5 percent air when Grade 2 coarse aggregate is used and 6 percent when Grade 3 coarse aggregate is used. Concrete as placed in the structure shall contain the proper amount as required above with a tolerance of + 1 1/2 percentage points. Variations beyond this tolerance may be cause for rejection. 403.7 Consistency Consistency of concrete as placed should allow completion of all finishing operations without addition of water to surface. When field conditions are such that additional moisture is needed for final concrete surface finishing operation, required water to be applied to surface by fog spray only and to be held to a minimum. Concrete to be workable, cohesive, possess satisfactory finishing qualities and of stiffest consistency that can be placed and vibrated into a homogeneous mass within slump requirements specified in Table 3. Excessive bleeding to be avoided. Slump values to conform to SDHPT Test Method Tex - 415 -A. Table 3 Slump Requirements Type of Construction Slump, inches Maximum Minimum Piers and Cased Drilled Shafts 4 3 Reinforced foundation caissons and footings 3 1 Reinforced footings and substructure walls 3 1 Uncased Drilled Shafts 6 5 Thin - walled Sections 5 4 (9 inches or less) Prestressed Concrete Members 5 4 Precast Drainage Structures 6 4 Wall Sections over 9 inches 4 3 Reinforced building slabs, beams, columns and walls 4 1 Bridge Decks 4 2 Pavements Fixed -form 2 1 Slip -form 1 1/2 1/2 403 06/10/88 6 Concrete for Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 . 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Sidewalks, driveways and sl abs on ground 4 2 Curbs & gutters Hand - vibrated 3 1 Hand - tamped or spaded 4 2 Slip - form /extrusion machine 2 1/2 Heavy mass construction 2 1 High strength concrete 4 3 Riprap and other miscellaneous concrete 6 1 Under water or seal concrete 6 5 NOTE: No Concrete will be permitted with slump in excess of maximums shown unless water reducing admixtures have previously been approved. 403.8 Quality of Concrete, General Concrete to be uniform and workable and of a consistency acceptable to Engineer /Architect. Cement content, maximum allowable water /cement ratio, minimum and maximum slump, proper amount of entrained air and strength requirements of various classes of concrete to conform to Tables 3 and 4 and as required herein. Contractor to provide concrete meeting these requirements. Test beams or cylinders to be required for each monolithic placement of bridge dEcks or superstructures, top slabs of direct traffic culverts, cased drilled shafts, structural beams and otherwise as directed by Engineer /Architect for "design strength" or early form removal. Requirement for early removal or opening will be at Contractor's expense, except when early opening or removal is required by Engineer /Architect and specified in Item No. 410, "Concrete Structures ". During progress of the work, Engineer /Architect, City's testing laboratory or in absence of above, Contractor to cast test cylinders and /or beams as a check on compressive and /or flexural strength of concrete actually placed. Engineer /Architect or City's testing laboratory may also perform slump tests, entrained air tests and will make temperature checks as required, to insure compliance with specifications. Test beams or cylinders will be required for small placements on structures such as manholes, inlets, culverts, wingwalls, etc. Engineer /Architect may vary the number of tests to a minimum of 1 for each 25 c,nhic yards pInced over a several day period. A strength test shall be defined as the average of breaking strength of 2 cylinders or 2 beams as the case may be. Specimens will be tested conforming to SDHPT Test Method Tex - 418 - or Tex - 420 - If required strength or consistency of class of concrete being produced cannot be secured with minimum cement specified or without exceeding maximum water /cement ratio, Contractor will be required to furnish different aggregates, use a water reducing agent, an air entraining agent or increase cement content in order to provide concrete meeting these specifications. 403 06/10/88 7 Concrete for Structures Contractor may request beam or cylinder tests for removal of forms and/or falsework at his own expense. Test specimens to be cured using the same methods and under the same conditions as the concrete represented. "Design Strength" beams and cylinders to be cured conforming to SDHPT Bulletin C -11 and Supplement thereto. When control of concrete quality is by 28 day compressive tests, job control will be by 7 day flexural or compressive tests which are shown to provide the required 28 day strength, based on results from trial batches.' Thereafter, if the required 7 day strength is not secured with the quantity of cement specified in Table 4, changes in the batch design will be made as specified in this item. Table 4 Classes of Concrete Class Min. Comp. Kin. Beam Max. Vetter Coarse of Sk. Cement Strength (f'c) Strength Cement Agg. Conc. per C.Y. 28 Day psi 7 Day psi Ratio No. A* 5.0 3000 #500 6.5 2 -3 -4 x B 4.0 2000 300 8.0 2 -3 -4 x C* 6.0 3600 #600 6.0 1 -2 -3 ** D 4.5 2500 #425 7.5 2 -3 -4 x E 6.0 3000 500 7.0 2 -3 F* 6.0 to 8.0 As indicated f'c 5.5 2 -3 6 H * ** 6.0 to 8.0 As indicated N.A. 5.5 3 I 5.5 3500 575 6.2 2 -3 -4 x J 2.0 800 2 -3 -4 K 3.0 L 5.0 5000 M 6.0 5000 N 5.5 5000 6.0 3 * Entrained Air (Slabs, piers and bent concrete) ** Grade 1 coarse Aggregate may be used in foundation only (except cased drilled shafts). * ** Entrained Air for slab concrete. # When Type II Cement is used with Class C Concrete, the 7 day beam break requirement will be 550 psi; with Class A, 460 psi. minimum. X Permission to use grade 4 aggregate must have prior approval of the Engineer. Concrete placed in bridge deck shall not have a temperature in excess of 85 F at time of placement. 403.9 Mixing Conditions Concrete to be mixed in quantities required for immediate use. Any 403 06 /10 /88 8 Concrete for Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 concrete which is not in place within limits outlined in Item No. 410, "Concrete Structures" shall not be used. Retempering of concrete will not be permitted. In threatening weather, which may result in conditions that will adversely affect quality of concrete to be placed, Engineer shall notify Contractor in writing that placement of work may not meet specifications and any work placed may have to be removed and replaced. Where work has been started and changes in weather conditions require protective measures, Contractor to furnish adequate shelter to protect concrete against damage from rainfall or from freezing temperatures as outlined in Item No. 410, "Concrete Structures ". If necessary to continue operations during rainfall, Contractor to also provide protective coverings for the material stockpiles. Aggregate stockpiles need to be covered only to extent necessary to control moisture conditions in aggregates to adequately control consistency of concrete. 403.10 Mixing and Mixing Equipment All equipment, tools and machinery used for hauling materials and performing any part of the work to be maintained in such condition to insure completion of the work under way without excessive delays for repairs or replacement. Mixing to be done in a mixer of approved type and size that will produce uniform distribution of material throughout the mass and shall be capable of producing concrete meeting requirements of ASTM C 94, Ready - mixed Concrete and these specifications. Absolute volume of concrete batch not to exceed the rated capacity of the mixer. Mixing equipment to be capable of producing sufficient concrete to provide quantities required to comply with Item No. 410, "Concrete Structures ". Entire contents of drum to be discharged before any materials are placed therein for succeeding batch. Improperly mixed concrete not to be placed in structure. Delivery of concrete to the site of the work and its discharge from mixer, agitator or nonagitating equipment to conform to Item No. 410, "Concrete Structures ". Mixer may be batched by either volumetric method or by weighing and to be equipped with a suitable timing device which shall lock the discharging mechanism and signal when specified time of mixing has elapsed. An adequate water supply and suitable metering devices to be provided. Water tank to be arranged so that the amount of water can be measured in gallons accurately. When tank starts to discharge, inlet supply shall cut off automatically and remain off until container has emptied completely and discharge line closed. 403 06/10/88 9 Concrete for Structures The first batch of concrete materials placed in the mixer for each placement to contain an extra quantity of sand, cement and water sufficient to coat the inside surface of the drum. Upon cessation of mixing for any considerable length of time, not exceeding a maximum of 1 hour, the mixer shall be thoroughly cleaned. (1) Proportioning and Mixing Equipment For all miscellaneous concrete placements, a mobile, continuous, volumetric mixer or a volumetric or weight batch mixer of the rotating paddle type may be used. When approved by Engineer in writing or when specified for use, these mixers may be used for other types of concrete construction, including structural concrete, if the number of mixers furnished will supply the amount of concrete required for the particular operation in question. These mixers shall be designed to receive all the concrete ingredients, including admixtures, required by the mix design in a continuous uniform rate and mix them to the required consistency before discharging. They may be of the volumetric or weight batch design. Mixers shall have adequate water supply and metering devices. For continuous volumetric mixers, the materials delivered during a revolution of the driving mechanism or in a selected interval, will be considered a batch and the proportion of each ingredient will be calculated in the same manner as for a batch type plant. Mixing time to conform to recommendations of manufacturer of mixer unless otherwise revised by Engineer. Calibration of these mixers will be required. . (2) Ready - mixed Concrete Use of ready -mixed concrete will be permitted provided the batching plant and mixer trucks meet requirements of quality specified herein. When ready -mixed concrete is used, additional mortar (1 sack cement, 3 parts sand and sufficient water) shall be added to each batch to coat the drum of the mixer or agitator truck. Delivery of concrete to site of the work and its discharge from truck mixer, agitator or nonagitating equipment shall conform to Item No. 410, "Concrete Structures ". Ready -mixed concrete, batching plant and mixer truck operation to include the following: (a) A ticket system will be used that includes a copy for 403 06/10/88 10 Concrete for Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (3) Site -mixed Concrete 403.12 Measurement construction inspector. Ticket will have machine stamped time /date of concrete batch, weight of cement, sand and aggregates; exact nomenclature and written quantities of admixtures and water. Any item missing or incomplete on ticket may be cause for rejection of concrete. (b) Sufficient trucks will be available to support continuous slab placements. Contractor will satisfy Engineer that adequate standby trucks are available to support monolithic placement requirements. (c) A portion of mixing water, required by batch design to produce specified slump, may be withheld and added at the job site, but only with permission of Engineer and under Inspector's observation. When water is added under these conditions, it will be thoroughly mixed before any slump or strength samples are taken. Hand mixing of concrete to be permitted only for small placements or in case of an emergency and then only on authorization of Engineer. Hand - mixed batches shall not exceed a 2 bag batch in volume. Job mix concrete to be concrete mixed in an approved batch mixer, conforming to requirements stated above, conveniently located to structure for which concrete is being mixed and moved to placement site in nonagitating equipment. After required materials are in mixer, concrete to be mixed not less than 50 seconds nor more than time indicated on manufacturer's nameplate, measured from the time the last material enters mixer to time discharge of concretebegins. Concrete mixer to be equipped with an automatic timing device which is put into operation when skip is raised to its full height and dumping. This device shall lock the discharging mechanism and prevent emptying of mixer until materials have been mixed together for the minimum time required and it to ring a bell after specified time of mixing has elapsed. 403.11 Excavation, Placing of Concrete, Finishing, Curing and Backfill Excavation, placing of concrete, finishing, curing and backfill shall conform to Item No. 401, "Structural Excavation and Backfill" and Item No. 410, "Concrete Structures ". Quantities of concrete of the various classifications which will constitute the completed and accepted structure or structures in place will be measured by the cubic yard, each, square foot, square yard, linear foot 403 06/10/88 11 Concrete for Structures or lump sum as the case may be. Measurement will be as follows: (1) General (a) Concrete quantities will be based on dimensions indicated or those established in writing by Engineer /Architect. Diafram concrete, when required, will be included in slab measurement. (b) In determining quantities, no deductions will be made for chamfers less than 2 inches, embedded portions of structural steel or prestressed concrete beams, piling, anchor bolts, reinforcing steel, drains, weep holes, junction boxes, electrical conduit, conduit and /or voids for prestressed tendons or for embedded portions of light fixtures. (c) For Pan Girder Spans, a quantity will be included for the screed setting required to provide proper camber in the roadway surface after form removal. (d) For Slabs on Steel and Prestressed Beams, a quantity for the haunch between slab and beams will be included when required. No measurement will be made during construction for variation in the amount of haunch concrete due to deviation from design camber in the beams. (e) For Slabs on Panels or T- Beams, the combination of span length, theoretical camber in beams, computed deflections and plan vertical curve will be taken into account in determining the quantity for the slab. Additional concrete, which may be required by an adjustment of the profile grade line during construction to insure proper slab thickness, will not be measured for payment. (f) Quantities revised by a change in design, measured as specified herein, will be increased or decreased, as the case may be and included for payment. (g) Variations in concrete headwall quantity incurred if an alternate bid for pipe is permitted will not be measured for payment. (2) Plan Quantity For those items specified for plan quantity payment, adequate calculations have been made conforming to "General Conditions of Agreement ". If no adjustment is required by this item, additional measurements or calculations will not be required. 403 06/10/88 12 Concrete for Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 ) Measured in Place 403.13 Payment For those items not specified for plat: quantity payment, measurement will be made in place. For all structural elements in unit price contracts specified for payment when measured by the cubic yard, the quantity to be paid for will be actual field measurements of the quantity indicated, except as may be modified by the following: Plan quantities will be adjusted: (1) When a complete structure element has been erroneously included or omitted from the plans, quantity shown on plans for that element will be added to or deducted from plan quantity and included for payment. A complete structure element will be the smallest portion of a total structure for which a quantity is included on plans. Quantities revised in this manner will not be subject to provisions of "General Conditions of Agreement ". (2) When plan quantity for a complete structure element is in error by 5 percent or more, a recalculation will be made and corrected quantity included for payment. Quantities revised in this manner will not be subject to provisions of "General Conditions of Agreement ". (3) When quantities are revised by a change in design, plan quantity will be increased or decreased by the amount involved in the design change. Quantities revised in this manner will be subject to provisions of "General Conditions of Agreement ". Payment for increased or decreased costs due to a change in design, on those items measured in "Each ", by the "Square Foot ", "Square Yard" or "Linear Foot" will be determined by provisions of "General Conditions of Agreement ". Payment for additional concrete required for slab on panel or T -beam construction due to adjustment of profile grade line will not be made under "Additional Work" as provided in "General Conditions of Agreement ". Unit prices bid for various classifications of concrete shown shall he full compensation for furnishing, hauling and mixing all concrete material; placing, curing and finishing all concrete; all grouting and pointing; furnishing and placing drains; furnishing and placing metal flashing strips; furnishing and placing expansion joint material required by this item and for all forms and falsework, labor, tools, equipment and incidentals necessary to complete the work. 403 06/10/88 13 Concrete for Structures Payment will be made under appropriate bid items where structural concrete is used as indicated and included in the bid. Box culverts shall be paid for under Item No. 559, "Box Culverts ". End 403 06/10/88 14 Concrete for Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (a) (c) All concrete tested shall contain entrained air. 405 Rev. 09/30/87 (3) Water - reducing Admixture Item No. 405 Concrete Admixtures 405.1 Description This item shall consist of the materials used, methods of tests and construction methods for the use of admixtures in concrete 405.2 Materials (1) Air Entraining Admixture An "Air Entraining Admixture" is defined as a material which, when added to a concrete mixture in the correct quan- tity, will entrain uniformly dispersed microscopic air. This admixture shall conform to ASTM C 260, modified as follows: - - The cement used in any series of tests shall be either the cement proposed for speditic work or a "refer- ence ",Type 1 cement from one mill. • (b) Unless otherwise indicated, the minimum relative durability factor shall be 80. The air entraining admixture used in the reference concrete shall be high quality neutralized Vinsol Resin. (2) Water - reducing, Retarding Admixture A "Water- reducing, Retarding Admixture" is defined as a material which. when added to a concrete mixture in the correct quantity, will reduce the quantity of mixing water required to produce concrete of a given consistency and will retard the initial set of the concrete. This admixture shall conform to ASTM C 494, Type A or D, modified as follows: (a) The water- reducing retarder shall retard the initial set of the plastic concrete a minimum of 2 hours and a maximum of 4 hours when the materials are at a temperature of 90 F, the dosage rate specified by the manufacturer. (b) The cement used in any series of tests shall be either the cement proposed for specific work or a "refer- ence" Type I cement from one mill. A "Water- reducing Admixture" is defined as a material which, when added to a concrete mixture in the correct quan- tity, will reduce the quantity of mixing water required to produce concrete of a given consistency and required strength. This admixture shall conform to ASTM C 494, Type A. (4) Accelerating Admixture An "Accelerating Admixture" is defined as an admixture that accelerates the setting time and the early strength development of concrete. This admixture shall conform to ASTM C 494, Type C, modified as follows: The accelerating admixture will contain no chlorides and shall be used in the liquid form only. (5) High - range Water Reducing Admixtures A "High -range Water Reducing Admixture,' referred to as a superplastersizer. is defined as a synthetic polymer material which, when added to a low slump concrete mixture increases the slump without segregation, impermea- bility and durability of the mix. This admixture shall conform to ASTM C 494. Type F or G, modified as follows: (a) It shall reduce the required water by a minimum of 15 percent. (b) It shall increase the 7 day compressive strength of the concrete by a minimum of 25 percent. The admixture when added to the mix shall produce the following: (a) Modify a low slump concrete, without the addition of water, to produce a slump which conforms to the range indicated. (b) It shall prevent a temperature rise of the mix above 100 F during high ambient conditions. (c) It shall not increase the chloride content of the mix. Page 1 Concrete Admixtures 405.3 Certification The Contractor shall submit the name of the admixture proposed and manufacturer's certification that products selected meet the requirements of this item and of ASTM C 260 and C 494 as required. 11 more than one admixture is proposed in the concrete mix, a statement of compatibility of components shall accompany certification. The Engineer/Architect may request additional information to be submitted such as infrared spectrophotometry scan, solids con- tent, pH value, etc., for further identification. A change in formulation discovered by any of the tests prescribed herein or other means and not reported and retested, may be cause to permanently bar the manufacturer from furnishing admixtures for Owners work. The Owner reserves the right to perform any or all of the tests required by ASTM C 260 and C 494 as a check on the tests reported by the manufacturer. In case of any variances the Owner tests will govem. 405.4 Approval of Admixtures The Engineer /Architect shall approve all admixtures and dosage. Approval of admixtures shall be based on previous perfor- mance of the admixture. The dosage will be determined from the manufacturer's recommendations, trial mixes or current job approved mix designs, if it is shown that no substantial change in any of the proposed ingredients has been made. Should the Contractor desire to change the admixture or dosage approved during the progress of the work, the Contractor shall perform trial mixes at his own expense and submit the new mix design for approval. 405.5 Construction Use of Admixtures No concrete shall be delivered to the project until the mix design is approved. All concrete delivered shall conform to the ap- proved job mix formula. Unless otherwise indicated, all concrete shall be air entrained. All admixtures will be added at the Batch Plant. All admixtures shall be in the liquid state. No admixtures shall be dispensed on dry aggregates. Each admixture shall be dispensed separately. but at the same time as the mixing water. An approved job mix formula for normal hot weather concreting may not perform satisfactorily for extended retardation, in which case its use will not be permitted. The rotation of the mixer shall be sufficient to thoroughly mix the admixture into the concrete. Admixtures shall be agitated as required to prevent separation or sedimentation of solids. Air agitation of Neutralized Vinsol Resin will not be permitted. Normally Air entraining agents shall be charged into the mixer at the beginning of the batch. Retarding or water reducing admixtures. except for high -range water reducers, shall be charged into the mixer during the last part (approximately 1 /3) of the batch when an air - entraining agent is used Accelerating admixtures will be used only on the written approval of the Engineer. Accelerating admixtures will not be permitted in bridge decks, direct traffic culvert slabs at any time nor when Type II cement is specified. All admixtures shall be of the same brand from only one manufacturer for the entire project, unless otherwise approved by the Engineer /Architect. Accelerators will be used only to meet special project requirements and will require the approval of the Engineer. For individual placements of concrete of 25 cubic yards or more and for all ready -mix concrete, the admixture shall be measured and dispensed by a readily adjustable dispenser. When set to a predetermined volume, the dispenser shall fill to the preset amount and hold it positively without leakage until the operator releases the content into the mixing water by some positive means. Unless otherwise indicated, completely automatic dispensing will not be required, except for use with a fully automatic plant. The calibrated container shall be a measuring reservoir of the type where the level of the admixture is visible at all times. A strip gauge with one ounce increments for air entraining admixtures, ten ounce increments for dispersing admixtures, shall be at- tached securely to the measuring apparatus. This strip shall be a material possessing weather resistant qualities. The accuracy equipment shall visibly show the total amount to be dispensed for ready check by the Engineer. When individual placements of less than 25 cubic yards and with the concrete batched on the job site. the Engineer /Architect may waive the requirements for mechanical dispensing equipment. When high range water reducing admixtures are indicated the following will be observed: (a) Ready -mixed concrete shall be delivered in transit mixers and the capacity of the transit mixer shall be reduced for each batch by 25 percent of the rated capacity to assure proper mixing. 405 Rev. 09130/87 Page 2 Concrete Admixtures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 . 1 1 1 1 1 1 End (b) If, during the placement of concrete, a change in slump resulting in a slump loss in excess of 3 inches is noted, the remainingosnorete shall be reported. (c) The addition of water will not be permitted at the job site. (d) Only one liquid admixture shall be used to achieve the desired results, except where air entrainment is indicated, the air entrainment agent will be permitted. (e) The concrete design shall meet the following requirements: Item Test Value Air entrainment ASTM C 260 3 to 8 percent Minimum cement content in Sacks (94 #/sack) 6.0 Coarse aggregate factor 6.5 Slump Maximum, inches 10 Flexural strength @ 7 days, psi 650 Maximum concrete temperature, F 100 405.6 Measurement and Payment No additional compensation will be made for the materials, equipment tests or methods required by this item, but shall be considered subsidiary to Item No. 360, "Concrete Pavement ", Item No. 410, "Concrete Structures" or various items included in the contract. Ref: 360, 410 405 Rev. 09 /30/87 High range water reducing admixture ASTM C 494 Type F or Water cement ratio Gal /Sack Max. 6.25 Page 3 Concrete Admixtures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 406 Reinforcing Steel 4061 Description This item shall Consist of the furnishing and placing of reinforcing steel, deformed and smooth, of the size and quantity indicated and in accordance with these specifications. 406.2 Materials ( Bars Bar reinforcement shall be deformed and shall conform to ASTM A 615, A 616, Grades 40, 60 or 75 and shall be open - hearth, basic oxygen or electric furnace new billet steel, unless otherwise indicated. Large diameter new billet steel (Nos. 14 and 18), Grade 75, will be permitted for straight bars only. Where bending of bar sizes No. 14 or No. 18 of Grades 40 or 60 is required, bend testing shall be performed on representative specimens as described for smaller bars - in the applicable ASTM specification. The required bend shall be 90 degrees at a minimum temperature of 60 F around a pin having a diameter of 10 times the nominal diameter of the bar and shall be free of cracking. Spiral reinforcement shall be either smooth or deformed bars or wire of the minimum diameter indicated. Bars for spiral reinforcement shall comply with ASTM A 675, A 615 or A 617. Wire shall comply with ASTM A 82. The mini- mum yield strength for spiral reinforcement shall be 40,000 psi. In cases where the provisions of this item are in conflict with the provisions of the ASTM Designation to which refer- ence is made, the provisions of this item shall govern. Report of chemical analysis showing the percentages of carbon, manganese, phosphorus and sulphur will be re- quired for all reinforcing steel when it is to be welded, except for drill shafts. No tack welding will be allowed. All welding shall conform to the requirements of AWS D -1 -72. The nominal size and area and the theoretical weight (Ibs.) of reinforcing steel bars covered by these specifications are as follows: Bar Size Nominal Nominal Area Weight per Number Diameter Inches Square Inches Linear Foot 2 0.250 0.05 0.167 3 0.375 0.11 0.376 4 0.500 0.20 0.668 5 0.625 0.31 1.043 6 0.750 0.44 1.502 7 0.875 0.60 2.044 8 1,000 0.79 2.670 9 1.128 1.00 3.400 10 1.270 1.27 4,303 11 1.410 1.56 5.313 14 1.693 2.25 7.65 18 2.257 4.00 13.60 Smooth bars, larger than No. 4, may be steel conforming to the above or may be furnished in any steel that meets the physical requirements of ASTM A 36. Smooth, round bars shall be designated by size number through No. 4. Smooth bars above No. 4 shall be desig- nated by diameter in inches. (2) Welded Wire Fabric Wire for fabric reinforcement shall be cold -drawn from rods hot- rolled from open - hearth, basic oxygen or electric furnace billet. Wire shall conform to the requirements of the Standard Specifications for Cold -Drawn Steel Wire for Concrete Reinforcement, ASTM A 82 or A 496. Wire fabric, when used as reinforcement, shall conform to ASTM A 185 or A 497. When wire is ordered by size numbers, the following relation between size number, diameter in inches and area shall apply unless otherwise indicated: Page 1 04 17;86 406 406.3 Bending 408 04/17/86 Size W Number 31 30 28 26 24 22 20 18 16 14 12 10 8 7 6 5.5 5 4.5 4 3.5 3 2.5 2 1.5 1.2 1 0.5 0.628 0.618 0.597 0.575 0.553 0.529 0.505 0.479 0.451 0.422 0.391 0.357 0.319 0.299 0.276 0.265 0.252 0.239 0.226 0.211 0.195 0.178 0.160 0.138 0.124 0.113 0.080 Where deformed wire is required, the size number shall be preceded by 0 and for smooth wire the prefix W shall be shown. (3) Chairs and Supports Chairs and Supports shall be steel. precast mortar or concrete. blocks cast in molds meeting the approval of the Engineer /Architect of sufficient strength to position the reinforcement as indicated when supporting the dead load of the reinforcement, the weight of the workers placing concrete and the weight of the concrete bearing on the steel. Chairs shall be plastic coated when indicated. Chair Types and Applicable Uses Structural or Architectural Elements (columns, beams, walls, slabs) exposed to weather, not subjected to sand blasting, water blasting or grinding. Structural or Architectural Elements exposed to weather and subject to sand blasting, water blasting or grinding. Structural or Architectural Elements not exposed to weather or corrosive conditions. Slabs and grade beams cast on grade. Page 2 Nominal Nominal Diameter (inch) Area square inches 0.310 0.300 0.280 0.260 0.240 0.220 0.200 0.180 1.160 0.140 0.120 0.100 0.080 0.070 0.060 0.055 0.050 0.045 0.040 0.035 0.030 0.025 0.020 0.015 0.012 0.010 0.005 Galvanized steel or steel chairs with plastic coated feet. Stainless steel chairs. Uncoated steel chairs Steel chairs with a base with 9 inch' minimum area or suf- ficient area to prevent the chair from sinking into fill or subgrade. Precast mortar or concrete blocks meeting the requirements of this item may be used. The reinforcement shall be bent cold, true to the shapes indicated. Bending shall preferably be done in the shop. Irregularities in bending shall be cause for rejection. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Unless otherwise indicated, the inside diameter Of bar bends, In terms of the nominal bar diameter (d), shall be as follows: Bends of 90 degrees and greater in stirrups, ties and other secondary bars that enclose another bar in the bend. Bar Number' Grade 40 Grade 60 3,4,5 3d - 4d 6, 7, 8 4d 5d All bends in main bars and in secondary bars not covered above. Bar Number Grade 40 - - Grade 60 - Grade 75 406.4 Tolerances 3 thru 8 6d 9,10 8d 11 8d 14, 18 10d Fabricating tolerances for bars shall not be greater than shown on Standard 406 -1. 406.5 Storing Steel reinforcement shall be stored above the surface of the ground upon platforms, skids or other supports and shall be pro- tected as far as practicable from mechanical injury and surface deterioration caused by exposure to conditions producing rust. When placed in the work, reinforcement shall be free from dirt, paint, grease, oil or other foreign materials. Reinforcement shall be free from injurious defects such as cracks and laminations. Rust, surface seams, surface irregularities or mill scale will not be cause for rejection, provided the minimum dimensions, cross sectional area and tensile properties of a hand wire brushed speci- men meets the physical requirements for the size and grade of steel indicated. 406.6 Splices No splicing of bars, except when indicated or specified herein, will be permitted without written approval of the Engineer /Architect. No substitution of bars will be allowed without the approval of the Engineer /Architect. Any splicing of substituted bars shall con- form to Table 1. Splices not indicated will be permitted in slabs not more than 15 inches in thickness, columns, walls and parapets, but not in- cluded for measurement, subject to the following: _ Splices will not be permitted in bars 30 feet or less in plan length. For bars exceeding 30 feet in plan length, the distance center to center of splices shall not be less than 30 feet minus 1 splice length, with no more than 1 individual bar length less than 10 feet. Splices not indicated, but permitted hereby, shall conform to Table 1. The specified concrete cover shall be maintained at such splices and the bars placed in contact and securely tied together. Bar Number Table 1 Minimum Lap Requirements Grade 40 6d 8d 8d 10d Grade 60 3 1 foot 0 inches 1 foot 0 inches 4 1 foot 2 inches 1 foot 9 inches 5 1 foot 5 inches 2 feet 2 inches 6 1 foot 9 inches 2 feet 7 inches 7 2 feet 4 inches 3 feet 5 inches No. 8 3 feet 0 inches 4 feet 6 inches No. 9 3 feet 10 inches 5 feet 8 inches No. 10 4 feet 10 inches 7 feet 3 inches No. 11 5 feet 11 inches 8 feet 11 inches 8d Spiral steel shall be lapped a minimum of 1 turn. Bar No. 14 and No. 18 may not be lapped. Welding of reinforcing bars may be used only where indicated or as permitted herein. All welding operations, processes, egwp- ment, materials, workmanship and inspection shall conform to the requirements indicated. All splices shall be of such dimension and character as to develop the full strength of the bar being spliced. End preparation for butt welding reinforcing bars shall be done in the field, except Bar No. 6 and larger shall be done in the shop. Delivered bars shall be of sufficient length to permit this practice. Page 3 04/17 406 For box culvert extensions with less than 1 foot of fill, the existing longitudinal bars shall have a lap with the new bars as shown in Table 1. For box culvert extensions with more than 1 foot of fill, a minimum lap of 6 inches will be required. Unless otherwise indicated, dowel bars transferring tensile stresses shall have a minimum embedment equal to the minimum lap requirements shown in Table 1. Shear transfer dowels shall have a minimum embedment of 12 inches. 406.7 Placing Reinforcement shall be placed as near as possible in the position indicated. Unless otherwise indicated, dimensions shown for reinforcement are to the centers of the bars. In the plane of the steel parallel to the nearest surface of concrete. bars shall not vary from plan placement by more than 1/12 of the spacing between bars. In the plane of the steel perpendicular to the nearest surface of concrete, bars shall not vary from plan placement by more than % inch. Cover of concrete to the nearest surface of steel shall as follows: Minimum Cover, Inches (a) Concrete cast against and permanently exposed to earth 3 (b) Concrete exposed to earth or weather: Bar No. 6 through 18 bars 2 Bar No. 5, W31 or D31 wire and smaller 11/2 (c) Concrete not exposed to weather or in contact with ground: Slabs, walls, joists: Bar No. 14 and 18 11 Bar No. 11 and smaller 1 Beams, columns: Primary reinforcement, ties, stirrups, spirals 11/2 Shells, folded plate members: Bar No. 6 and larger 1 Bar No. 5, W31 or 031 wire, and smaller 1 Vertical stirrups shall always pass around the main tension members and be attached securely thereto. The reinforcing steel shall he spaced its required distance from the form surface by means of approved galvanized metal spacers, metal spacers with plastic coaled tips, stainless steel spacers, plastic spacers or approved precast mortar or concrete blocks. For approval of plastic spacers on a project, representative samples of the plastic shall show no visible indications of deterioration after immersion in a 5 percent solution of sodium hydroxide for 120 hours. • All reinforcing steel shall be tied at all intersections, except that where spacing is less than 1 foot in each direction, alternate intersections only need be tied. For reinforcing steel cages for other structural members, the steel shall be tied at enough inter- sections to provide a rigid cage of steel. Mats of wire fabric shall overlap each other 1 lull space as a minimum to maintain a uniform strength and shall be tied at the ends and edges. Where prefabricated deformed wire mats are specified or if the Contractor requests, welded wire fabric may be substituted for a comparable area of steel reinforcing bar plan, subject to the approval of the Engineer /Architect. A suitable tie wire shall be provided in each block, to be used for anchoring to the steel. Except in unusual cases and when specifically authorized by the Engineer, the size of the surface to be placed adjacent to the forms shall not exceed 21/2 inches square or the equivalent thereof in cases where circular or rectangular areas are provided. Blocks shall be cast accurately to the thickness required and the surface to be placed adjacent to the forms shall be a true plane, free of surface imperfections. - Reinforcement shall be supported and tied in such a manner that a sufficiently rigid cage of steel is provided. If the cage is not adequately supported to resist settlement or floating upward of the steel, overturning of truss bars or movement in any direction during concrete placement, permission to continue concrete placement will be withheld until corrective measures are taken. Sufficient measurements shall be made during concrete placement to insure compliance with the above. No concrete shall be deposited until the Engineer /Architect has reviewed the placement of the reinforcing steel and all mortar, mud, dirt. etc, shall be cleaned from the reinforcement, forms, workers' boots and tools. 406.8 Measurement The measurement of quantities of reinforcement furnished and placed will be based on the calculated weight of the steel actually placed as indicated, with no allowance made for added bar lengths for splices requested by the Contractor nor for extra steel used when bars larger than those indicated or with a higher grade of steel are substituted with the permission of the Engineer/ 406 04/17/86 Page 4 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Architect. Tie wires and supporting devlceS Will not be included in the calculated weights. The calculated weight of bar reinforce - ment will be determined ,using the theoretical bar weight set forth in this item. Measurement required by a change in design will be computed as described above for the actual steel required to complete the work. 408.9 Payment This item shall be paid for at the unit price bid per pound of "Reinforcing Steel', which price shall be full compensation for furnishing, bending, fabricating, welding and placing reinforcement, for all clips, blocks, metal spacers, ties, chairs, wire or other materials used for fastening reinforcement in place and for all tools, labor, equipment and incidentals necessary to complete the work. Reinforcement in items specifically including the reinforcement shall not be paid for directly, but shall be included in the unit price bid for the items of construction in which the reinforcing steel is used. Payment, when included as a contract pay item, will be made under: Pay Item No. 406: Reinforcing Steel — Per Pound. This item shall be considered subsidiary to the contract; and no separate payment shall be made. End. Page5 04/17;86 406 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 408,1 Description This itern shall govern for the furnishing acid placing of all longitudinal, contraction and expansion joint material in concrete work a8 herein specified in the various items of these specifications as indicated or ae directed by the Engineer, 408.2 Material - - (1) Preformed Asphalt Board Preformed asphalt board formed from cane or other suitable fibers of a cellular nature securely bound together and uniformly impregnated with a suitable asphaltic binder and meeting the requirements of the Standard Specifications for Preformed Expansion Joint Filler for Concrete Paving and Structural Construction, ASTM D 1751. Preformed Nonbituminous Fiber Material Preformed nonbituminous fiber material shall meet the requirements of the Standard Specifications for the Pre- formed Expansion Joint Filler for Concrete Paving and Structural Construction, ASTM D 1751, except that the re- quirements pertaining to bitumen content, density and water absorption shall be voided. ( (3) Boards Boards obtained from Redwood limber, of sound heartwood, free from sapwood, knots, clustered birdseye. checks and splits. Occasional sound or hollow birdseye, when not in clusters, will be permitted provided the board is free from any other defects That will impair its usefulness as a joint filler. (4) Joint Sealer (Concrete Pavement) This material shall be a one part low modulus silicone especially designed to cure at ambient temperatures by react- ing with moisture in the air and shall have the following properties: As Supplied Color Gray Flow, MIL- 2 -8802D Sec. 4.8.4 0.2 maximum Working Time, minutes 10 Tack•Free Time at 77 F 2 F Min. MIL- 2 -8802D Sec.4.8.7 60 Cure time, at 77 F (25 C), days 7 -14 Full Adhesion, days 14 - As Cured —after 7 days at 77 F (25 C) and 40% RH Elongation, percent minimum 1200 Durometer Hardness, Shore A, points ASTM 2240 15 Joint Movement Capability, percent +100/-50 Tensile Strength, maximum elongation, psi 100 Peel Strength. psi 25 Item No. 408 Concrete Joint Materials The joint sealer shall adhere to the sides of the concrete joint or crack and shall be an effective seal against infiltration of water and incompressibtes. The material shall not crack or break when exposed to low temperature. (5) Backer Rod Backer Rod shall be expanded closed cell polyethylene foam compatible with sealant. No bond or reaction shall occur between rod and sealant. Backer Rod shall be of sufficient width to be in compression after placement and shall be used with joint sealer (6) Joint Sealing Material Joint Sealing Material for other than pavement use may be a two - component, synthetic polymer or cold - pourable, self leveling type meeting the following requirements: The material shall adhere to the sides of the concrete joint or crack and shall form an effective seal against infiltration of water and incompressibles. The material shall not crack or break when exposed to low tempera- tures. Curing is to be by polymerization and not by evaporation of solvent or fluxing of harder particles. It shall cure sufficiently at an average temperature of 77 F so as not to pick up under wheels of traffic in a maximum of 3 hours. Page 1 04/17/86 408 End Performance Requirements: When tested in accordance with Test Method Tex- 525 -C, the joint sealing material shall meet the above curing times and the requirements as follows: It shall be of such consistency that it can be mixed and poured or mixed and extruded into joints at temperatures above 60 F. 408.3 Construction Methods 408 04/17/86 Page 2 Penetration, 77 F. 150 gm. Cone, 5 sec., max. -cm 0.90 Bond and Extension 75 %, 0 F, 5 cycles: Dry Concrete Blocks Pass Wet Concrete Blocks Pass Steel Blocks (Primed if specified by manufacturer) Pass Row at 200 F None Water content % by weight, max. 5.0 Resilience: Original sample min. % (cured) Oven -aged at 158 F. min. % For Class 1 -a material only Cold Flow (10 min.) 50 50 None The Contractor shall install "Concrete Joint Materials" which will function as a compatible system. Joint sealer shall not be placed where a bond braker is present. Asphalt, Redwood board or other materials used shall extend the full depth of the concrete and shall be perpendicular to the exposed face. All joints shall be shaped to conform to the contour of the finished section in which they are installed. All material shall be a minimum of %2 inch thick or as indicated. Wood materials shall be anchored to the adjacent concrete to permanently hold them in place. Joint sealer shall be installed in accordance with the manufacturer's recommendations. The material used for sidewalk expansion joints, shall conform to No. 3 above, unless otherwise indicated. The material used for curb and gutter expansion joints filler shall conform to any of the above, except when placed adjacent to concrete pavement, the joint material shall match the pavement joint material. 408.4 Measurement and Payment No additional compensation will be made for materials, equipment or labor required by this item, but shall be considered subsidi- ary to the various items included in the contract. 1 1 1 1 r 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 409 Membrane Curing 409.1 Description This item shall 0Onslst q1 curing concrete pavement, concrete base. pavement, curbs, gutters. retards, sidewalks. driveways. medians. islands. concrete derap, cement stabilized riprap, concrete structures and other concrete as indicated, by applying an impervious Liquid membrane forming material. 409.2 Material The liquid forming membrane curing compound shall comply with the "Standard Specification for Liquid Membrane-forming "Compounds for Curing Concrete', ASTM C 309, Type 1 -D clear or translucent. With fugitive dye or Type 2 white pigmented. The material Shall have a minimum flash point of 80 F when tested by the "Pensky -Martin Closed Tester ", ASTM Designation: D 93. It shall be of such consistency that it can be satisfactorily applied as a tine mist through an atomizing nozzle by means of ap- proved pressure spraying equipment at atmospheric temperatures above 40 Fr - It shall be of such nature that it will not produce permanent discoloration of concrete surfaces nor react deleteriously with the concrete or its components. Type 1 compound shall contain a fugitive dye that will be distinctly visible not less than 4 hours nor more than 7 days after application. Type 2 compound shall not settle out excessively or cake in the container and shall be capable of being mixed to a uniform consistency by moderate stirring and shall exhibit a daylight reflectance of not less than 60 percent of that of magnesium oxide when tested as indicated. The compound shall produce a firm, continuous. uniform, moisture impermeable film, free from pinholes and shall adhere satis- factorily to the surfaces of damp concrete. When applied to the damp concrete surface at the rate of coverage indicated, the compound shall dry to the touch in not more than 4 hours and shall not be tacky or crack off concrete after 12 hours. It shall adhere to horizontal and vertical surfaces in a tenacious film and shall not run off or show an appreciable sag, disinte- grate, check. peel or crack during the required curing period. Under traffic. the compound shall not pick up or peel and shall gradually disintegrate from the surface. The compound shall be delivered to the job only in the manufacturer's original containers, which Shall be clearly labeled with the manufacturer's name, the trade name of the material and a batch number or symbol with which test samples may be correlated. The water retention test shall be in accordance with the following: - Percentage loss shall be defined as the water lost after the application of the curing material was applied. The permissible percentage moisture loss fat the rate Of coverage specified herein) shall not exceed the following: 24 hours after application 72 hours after application 409.3 Construction Methods 2 percent 4 percent The membrane curing compound shall be applied after the surface finishing has been completed and immediately after the free surface moisture has disappeared. The surface shall be seated with a single uniform coating of the specified type of curing compound applied at the rate of coverage recommended by the manufacturer and directed by the Engineer, but not less than 1 gallon per 180 square feet of area. The Contractor shall provide satisfactory means and facilities to properly control and check the rate of application of the compound. The compounds shall not be applied before the surface has become dry, but shall be applied just after free moisture has disappeared. The compound shall be thoroughly agitated during its use and shall be applied by means of approved mechanical power pressure sprayers for Street and bridge applications. The sprayers used to apply the membrane to concrete exposed surfaces shall travel at a uniform speed along the forms and be mechanically driven. The equipment shall be Of such design that it will insure uniform and even application of the membrane material. The sprayers shall be equipped with satisfactory atomizing nozzles On small miscellaneous items or on interim bridge deck curing the Contractor will be permitted to use hand - powered spray equipment. For all spraying equipment. the Contractor shall provide facilities to prevent loss of the compound between the nozzle and the concrete surface during the spraying operations. At locations where the coating shows discontinuities, pinholes or other defects or if rain falls on the newly coated surface before the film has dried sufficiently to resist damage, an additional coat of the compound shall be applied immediately at the same rate of coverage specified herein. To insure proper coverage, the Engineer shall inspect all treated areas alter application of the compound for the period of time Page 1 12/03/86 409 designated in the specification for curing, either for membrane curing or for other methods. Dry areas are identifiable because of the lighter color of dry concrete as compared to damp concrete. All suspected areas shall be tested by placing a few drops of water on the suspected areas. 11 the water stands in rounded beads or small pools which can be blown along the surface of the concrete without wetting the surface. the water impervious film is present. If the water wets the surface of the concrete as deter- mined by obvious darkening of the surface or by visible soaking into the surface. no water - impervious film is present. Should the foregoing. test indicate that any area daring the curing period is not protected by the required water - impervious film an additional coat or coats of the compound shall be applied immediately and the rate of application of the membrane compound shall be increased until all areas are uniformly covered by the required water - impervious film. The compounds shall not be applied to a dry surface and if the surface of the concrete has become dry, it shall be thoroughly moistened prior to the application of the membrane by fogging or mist application. Sprinkling or coarse spraying will not be allowed. • When temperatures are such as to warrant protection against freezing. curing by this method shall be supplemented with an approved insulating material capable of protecting the concrete for the specified curing period. If at any time there is reason to believe that this method of curing is unsatisfactory or is detrimental to the work, the Contractor. when notilied, shall immediately cease the use of this method and shall change to curing by one of the other methods specified under this contract. Curing compounds shall be compatible with the adhesion of toppings or overlays where curing has been applied to the concrete base surface in order to assure adequate bond. When forms are stripped before the 4 minimum curing days have passed, curing shall continue by an approved method. 409.4 Measurement and Payment Membrane curing will not be measured for payment. The work and materials prescribed herein will not be paid for directly, but shall be included in the unit price bid for the item of construction in which these materials are used. End 409 04/17/86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 410.1 Description This item Shell consist of the construction of all types of structures involving the , use of structural concrete, except where the requirements are waived or revised by other governing specifications. All 4'Dncrete structures shall be constructed in dcc0rdance with the design requirements and details indicated, in conformity with the pertinent provisions of the items contracted for, the incidental items referred 10 and in conformity with the requirements herein. - 410.2 Materials (1) Concrete Concrete shall conform to Item No.A03, "Concrete for Structures ". - The class of concrete for each type of structure or unit shall be as indicated or by pertinent governing specifications. (2) Expansion Joint Material (a) Preformed Fiber Material Fiber material shall conform to Item No. 408, "Concrete Joint Materials ". (b) Joint Sealing Material Sealants shall conform to Item No. 408, "Concrete Joint Materials ". (c) Asphalt Board Asphalt Board shall conform to Item No. 408, "Concrete Joint Materials ". (d) Rebonded Neoprene Filler Rebonded neoprene tiller shall consist of ground closed cell neoprene particles, rebonded and molded into sheers of uniform thickness of the dimensions indicated. (3) (4) Curing Materials (5) Admixtures 410 Rev. 09 /30/87 Filler material shall have the following physical properties and shall meet the requirements of ASTM D 1752, Type 1 where applicable: Property Item No. 410 Concrete Structures Method Requirements Color Black Density ASTM D 1752 Type 1 40 PCG Minimum Recovery ASTM D 1752 Type 1 90% Minimum Compression ASTM D 1752 Type 1 50 to 500 psi Extrusion ASTM D 1752 Type 1 0.25 In. Maximum Tensile strength ASTM 0 1752 Type 1 20 psi Minimum Elongation 75% Minimum The manufacturer shall furnish the Engineer with certified test results as to the compliance with the above requirements and a 12 inch x 12 inch x 1 inch sample from the shipment for approval. Waterstop Unless otherwise indicated, copper waterstop shall be 16 ounce material conforming to Item No. 720, "Metal for Structures ". Rubber waterstops or Polyvinyl Chloride (PVC) waterstops shall conform to Item No. 438, "Elastomeric Materials ". Curing materials shall conform to Item No. 409, "Membrane Curing ", except curing of bridge decks and the top of direct traffic culverts shall be cured with Type I (Resin Base) curing compound only. Retarding, water reducing and air entraining agents shall conform to Item No. 405, "Concrete Admixtures ". Page 1 Concrete Structures (6) City of Austin Survey Monuments The Transportation and Public Services Department shall furnish permanent survey monuments to be cast in con- crete as indicated or as directed by the Engineer. 410.3 General Requirements Before starting work. the Contractor shall inform the Engineer fully of the construction methods he proposes to use, the ade- quacy of which shall be subject to the review by the Engineer. Plans for forms and falsework for piers and superstructure spans over 20 feet long and for all widening details shall be submitted to the Engineer for review, 1 requested. Similar plans shall be submitted for other units of the structure, 1 requested by the Engineer. The plans shall be prepared on standard 22 inch by 36 inch sheets and shall show all essentiatdetails of the proposed forms, talsework and bracing to permit a structural analysis. Four sets of such plans will be required. • Concurrence on the part of the Engineer in any proposed construction methods, approval of equipment or of form and talsework plans does not relieve the Contractor of the responsibility for the safety or correctness of his methods and adequacy of his equipment or from carrying out the work in full accordance with the contract. Unless otherwise indicated, the requirements In the succeeding paragraphs shall govern the time sequence in which construc- tion operations may be carried on and for the opening of completed structures to traffic:, Superstructure members, forms, talsework or erection equipment shall not be placed on the substructure before the con- crete therein has attained a 500 psi flexural strength. Storage of materials on completed portions of a structure will not be permitted until all curing requirements for those partic- ular portions have been met. No forms shall be erected on concrete footings supported by piling or drilled shafts until the concrete therein has attained a minimum flexural strength of 400 psi. Such work may begin on spread footings after the Concrete therein has aged at least 2 curing days. Concrete may be placed as soon as the forms and reinforcing steel are approved. The support of tie beam and/or forms by talsework placed on previously placed tie beams is permissible provided such beams have attained 500 psi flexural strength, curing requirements are completed and the beams are properly supported to eliminate stresses not provided for in the design. Bridges and direct traffic culverts shall not be opened to construction Traffic or to the traveling public until authorized by the Engineer in accordance with the following: Authorization may be given after the last slab concrete has been in place at least 14 days for light construction traffic not to exceed a 14 ton vehicle. Authorization to pace embankments to allow normal construction traffic and when necessary to the traveling public, may be given after the last slab concrete has been in place 30 days or when the minimum compressive strength (lc) has reached the 28 day strength conforming to Item No. 403, "Concrete for Structures" or as indicated. 410.4 Drains Weep holes and roadway drains shall be installed and constructed as indicated. 410.5 Expansion Joints Joints and devices to provide for expansion and contraction shall be constructed where and as indicated. The bearing area under the expansion ends of concrete slabs and slab and girder spans shall be given a steel trowel finish and finished to the exact grades required. The material used to separate expansion surfaces shall be as indicated and placed so that concrete or mortar cannot be subsequently worked around or under it. Concrete adjacent to armor joints and Linger joints shall be placed carefully to avoid detective anchorage and porous or hon- eycombed concrete in such areas. All open joints and joints to be filled with expansion joint material shall be constructed using forms adaptable to loosening or early removal. To avoid expansion or contraction damage to the adjacent concrete, these forms shall be loosened as soon as possible after final concrete set to permit free movement of the span without requiring full form removal. Preformed fiber joint material or other material indicated shall be used in the vertical joints of the roadway slab, curb, median or sidewalk. The top 1 inch thereof shall be filled with joint sealing material, as specified herein. When different material is indicated it shall be used. 410 Rev. 09 /30/87 Page 2 Concrete Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r 1 1 1 1 Prior to placing the sealing material, the vertical faces of the joint shall be cleaned of all laitance by sandblasting or by mechan- ical routing. Cracked or spalled edges shall be repaired. The joint shall be blown clean of all foreign material and sealed. Where preformed fiber joint material is used, it shall be'anchored to the concrete on one side of the joint by fight wire or nails to _ prevent the material from falling out._ • Finished joints shall conform to the plan details with the concrete sections completely separated by the specified opening or joint material. Soon after form removal and again where necessary after surface finishing, all projecting concrete shall be removed along ex- posed edges to secure full effectiveness of the expansion joints. 410.6 Construction. Joints The joint formed by placing plastic concrete in direct contact with concrete that has attained its initial set shall be deemed a construction joint. The term monolithic placement shall be interpreted to mean that the manner and sequence of concrete placing shall not create construction joints. Construction joints shall be of the type and at the locations indicated. Additional joints will not be permitted without written autho- rization from the Engineer and when authorized, shall have details equivalent to those indicated for joints in similar locations. Unless otherwise provided, construction joints shall be square and normal to the Corms. Bulkheads shall be provided in the forms for all joints, except when horizontal. All vertical construction joints shall be chamfered. All horizontal construction joints shall be routed or grooved. Construction joints requiring the use of joint sealing material shall be as indicated or as directed by the Engineer, The material will be indicated on the plans without reference to joint type. A concrete placement terminating at a horizontal construction joint shall have the top surface roughened thoroughly as soon as practicable atter initial set is attained. The surfaces at bulkheads shall be roughened as soon as the forms are removed. The hardened concrete surface shall be thoroughly cleaned of all loose material, laitance, dirt or foreign matter and saturated with water so it is moist when placing fresh concrete against it. Forms shall be drawn tight against the existing concrete and the joint surface flushed with grout just prior to placing the fresh concrete. - 410.7 Foundation Excavation for foundations shall conform to Item No. 401, "Structural Excavation and Backfill ". Concrete for foundation seals, unless otherwise indicated, shall be Class E Concrete and placed in accordance with the require- ments herein. The lop of the completed seal shall not vary from plan grade or the grade established by the Engineer. Where a concrete seal is indicated, the design will be based on the normal water elevation as indicated. If the foundation con- crete can be placed in the dry at the time of construction, the seal will not be required. If additional seal is necessary for the conditions existing during the time of construction, its thickness shall be increased as deemed necessary by the Contractor and at his expense. If the conditions existing at the time of construction require a seal for placing the foundation concrete in the dry and none is indicated, the Contractor shall place an adequate seal at his expense. The seal shall be allowed to set for at least 36 hours before the caisson or cofferdam is dewatered, after which the top of the seal shall be cleaned of all laitance or other soft material and all high spots exceeding the above limitation shall be cut off and removed. 410.8 Falsework The Contractor is totally responsible for all falsework. He shall design and construct to safely carry the maximum anticipated loads and to provide the necessary rigidity. Details of falsework construction shall be subject to review by the Engineer, but Engineer's review shall in no way relieve the Contractor of responsibility of the adequacy and safety of the falsework design. All timber used in falsework centering shall be sound, in good condition and free from defects which will impair its strength. When wedges are used to adjust falsework to desired elevations, they shall be used in pairs to insure even bearing. Sills or grillages shalt be large enough to support the superimposed load without settlement and unless founded on solid rock, shale or other hard materials, precautions shall be taken to prevent yielding of the supporting material. Falsework which cannot be founded on a satisfactory spread footing shall be placed on piling driven to a bearing capacity suffi- cient to support the superimposed load without settlement. The sate bearing capacity of piling shall be determined by test loads or by such other methods that may be required or acceptable to the Engineer. 410 Rev. 09(30/87 Page 3 Concrete Structures In general, each falsework bent shall be capped transversely by a member of proper size. A short cap section forming a t -head may be substituted to permit the removal of portions of the forms without disturbing the falsework. Caps shall be securely fas- tened to each pile or column in the bent and set at the proper elevation to produce, in conjunction with the use of approved wedges or jacks, permanent camber indicated, plus a construction camber covering allowance for deformation of the forms and falsework. The use of wedges to compensate for incorrectly cut bearing surfaces will not be permitted. Each falsework bent shall be securely braced to provide the stiffness required with the bracing securely fastened to each pile or column it crosses. In setting falsework for arches, allowances shall be made for settlement of falsework, deflection of the arch and permanent camber. Provision shall be made by suitable wedges, sand jacks or other acceptable devices for the controlled lowering of falsework when the arch is swung. Falsework may be required to be placed on jacks to provide for settlement correction during concrete placement. When the falsework is no longer required, it shall be removed. Falsework piling shall be pulled or cut off not less than 6 inches below finished ground level. Falsework and piling in a stream, lake or bay shall be completely removed tea point specified by the Engineer to prevent any obstruction to the waterway. 410.9 Forms Forms for precast prestressed concrete members and for prestressed piling shall be constructed conforming to Item No. 425, "Prestressed Concrete Structures". (1) General Except where otherwise indicated, forms may be of either timber or metal. Forms for round columns exposed to view shall be of steel, except that other materials will be allowed with written permission of the Engineer. Forming plans shall be submitted for approval. Forms shall be designed for the pressure exerted by a liquid weighing 150 pounds per cubic toot. The rate of placing the concrete shall be taken into consideration in determining the depth of the equivalent liquid. For job fabricated forms an additional live load of 50 pounds per square foot shall be allowed on horizontal surfaces. The maximum unit stresses shall not exceed 125 percent of the allowable stresses used by the Owner for the design of structures. Commercially produced structural units used in form work shall not exceed the manufacturer's maximum allowable working load for moment. shear or end reaction. The maximum working load shall include a live load of 35 pounds per square foot of horizontal form surface and sufficient details and data shall be submitted for use in checking form work details for approval. Forms shall be practically mortar-tight, rigidly braced and strong enough to prevent bulging between supports and maintained to the proper line and grade during concrete placement. Forms shall be maintained in a manner that will prevent warping and shrinkage. Deflections due to cast -in -place slab concrete and railing shown in the dead load deflection diagram shall be taken into account in the setting of slab fors. All fors and footing areas shall be cleaned of any extraneous matter before placing concrete. Permission to place concrete will not be given until all of such work is complete to the satisfaction of the Engineer. If. at any stage of the work, the forms show signs of bulging or sagging. the portion of the concrete causing such condition shall be removed immediately, if necessary and the forms shall be reset and securely braced against fur- ther movement. (2) Timber Forms Lumber for forms shall be properly seasoned, of good quality and free from imperfections which would affect its strength or impair the finished surface of the concrete. The lumber used for facing or sheathing shall be finished on at least 1 side and 2 edges and shall be sized to uniform thickness. Form lining will be required for all formed surfaces, except for the Jnside of culvert barrels, inlets, manholes and box girders, the bottom of bridge decks between beams or girders, surfaces that are subsequently covered by backf ill material or are completely enclosed and any surface formed by a single finished board. Lining will not be required when plywood forms are used. 410 Rev. 09/30/87 Form lining shall be of an approved type such as masonite or plywood. Thin membrane sheeting such as poly- ethylene sheets shall not be used for form lining. Page 4 Concrete Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 I 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 410 Rev. 09/30/87 Forms may be constructed of plywood not less than 'h inch in thickness, with no form lining required. The grain of the face plies on plywood forms shall be placed parallel to the span between the supporting studs or joists. Plywood used for forming surfaces which remain exposed shall be equal to that specified as B -B Plyform Class 1 or Class II Exterior of the U.S. Department of Commerce, National Bureau of Standards, U.S. Product Standard, latest edition. Forms or form lumber to be reused shall be maintained clean and in good condition. Any lumber which is split, warped, bulged, marred or has defects that will produce interior work shall not be used and it condemned, shall be promptly removed from the work. Studs and joists shall be spaced so that the facing form material remains in true alignment under the imposed loads. Wales shall be spaced close enough to hold forms securely to the designated lines and scabbed at least 4 feet on each side of joints to provide continuity. A row of wales shall be placed near the bottom of each placement. Facing materiai.shall be placed with parallel and square joints and securely fastened td supporting studs. Forms for surfaces receiving only an ordinary finish and exposed to view shall be placed with the form panels sym- metrical, i.e., long dimensions set in the same direction. Horizontal joints shall be continuous. Molding specified for chamfer strips or other uses shall be made of materials of a grade that will not split when nailed and which can be maintained to a true line without warping. Wood molding shall be mill cut and dressed on all faces. Unless otherwise indicated, forms shall be filletedat all sharp corners and edges with triangular chamfer strips mea- suring Y4 inch on the sides, Forms for railings and ornamental work shall be constructed to standards equivalent to first class millwork. All mold- ings, panel work and bevel strips shall be straight and true with neatly mitered joints designed so the finish work is true, sharp and clean cut. All forms shall be constructed to permit their removal without marring or damaging the concrete. The forms may be given a slight draft to permit ease of removal. Metal form ties of an approved type or a satisfactory substitute shall be used to hold forms in place and shall be of a type that permits ease of removal of the metal as hereinafter specified. All metal appliances used inside of forms for alignment purposes shall be removed to a depth of at least V2 inch from the concrete surface. They shalt be made so the metal may be removed without undue chipping or spelling and when removed. shall leave a smooth opening in the concrete surface. Burning off of rods, bolls or ties will not be permitted. Any wire ties used shall be cut back at least W inch from the face of the concrete and properly patched. Devices holding metal ties in place shall be capable of developing the strength of the tie and adjustable to allow for proper alignment. Metal and wooden spreaders which are separate from the forms shall be removed entirely as the concrete is being placed. Adequate clean -out openings shall be provided for narrow walls and other locations where access to the bottom of the forms is not readily attainable. Prior to placing concrete, the facing of all forms shall be treated with oil or other bond breaking coating of such composition that it will not discolor or otherwise injuriously affect the concrete surface. Care shall be exercised to prevent coating of the reinforcing steel. (3) Metal Forms The foregoing requirements for timber forms as regards design, mortar- tightness, filleted corners, beveled projec- tions, bracing, alignment, removal, reuse and wetting shall also apply to metal forms, except that these will not re- quire lining, unless specifically indicated. The thickness of form metal shall be as required to maintain the true shape without warping or bulging. All bolt and rivet heads on the facing sides shall be countersunk. Clamps, pins or other connecting devices shall be designed to hold the forms rigidly together and to allow removal without injury to the concrete. Metal forms which do not present a smooth surface or line up properly shall not be used. Metal shall be kept free from rust, grease or other foreign materials. (4) Form Supports for Overhang Slabs Form supports which transmit a horizontal force to a steel girder or beam or to a prestressed concrete beam will be Page 5 Concrete Structures (a) 410.10 Placing Reinforcement Reinforcement in concrete structures shall be placed carefully and accurately and rigidly supported as provided in Item No. 406. "Reinforcing Steel ". Reinforcing steel supports shall not be welded to I -beams or girders or stirrups of prestressed concrete beams. 410.11 Placing Concrete, General The minimum temperature of all concrete at the time of placement shall not be less than 50 F. The maximum temperature of any concrete, unless otherwise indicated, shall not exceed 95 F when placed. The maximum temperature of cast -in -place concrete in bridge superstructures, diaframs, parapets, concrete portions of railing, curbs and sidewalks and direct traffic box culverts shall not exceed 85 F when placed. Other portions of structures, when indicated, shall require the temperature control specified. For continuous placement of the deck on continuous steel units, the initial set of the concrete shall be retarded sufficiently to insure that it remains plastic in not less than 3 spans immediately preceding the one being placed. For simple spans, retardation shall be required only if necessary to complete finishing operations. The consistency of the concrete as placed should allow the completion of all finishing operations without the addition of water to the surface. When conditions are such that additional moisture is needed for finishing, the required water shall be applied to the surface by fog spray only and shall be held to a minimum amount. Fog spray for this purpose may be applied with hand operated fogging equipment. The height of free fall of concrete shall be limited to 3 — 4 feet to prevent segregation. The maximum time interval between the addition of cement to the batch and the placing of concrete in the forms shall not exceed the following: 410 Rev. 09130187 permitted, but shall not be used unless a structural analysis has been made of the affect on the girder or beam and approval is granted by the Engineer. When overhang brackets are used on prestressed concrete beams, the following shall apply: In normal spans or in spans skewed not more than 15 degrees, overhang brackets may be used to support standard slab overhangs of widths not exceeding 3 feet, 11/2 inches without additional support or bracing, when Type A, B. C and Type IV beams are used. When the 15 degree skew angle is exceeded, additional support shall be provided by welding No. 5 reinforcing bars to the stirrups of the exterior beam and adjacent interior beam. Such bars shall be approximately 1'h inches above the bottom of the slab and spaced not more than 5 feet, center to center. (b) In normal or skewed spans with standard overhangs not exceeding 3 feet, 1'h inches, additional support shall be provided using No. 5 bars as specified above and in addltion,.braces or struts, equivalent in size to a 4 inch x 4 inch timber, shall be wedged between the bottom flanges of the exterior and adjacent interior beam and spaced not more than 15 feet between struts or struts and permanent diaframs, when SDHPT Size 48 inch through 72 inch beams are used. (c) Spans in which the overhang width exceeds 3 feet, 1Y2 inches will require additional support for the outside beams to resist torsion. Details of the Contractor's proposed method of providing additional sup- port shall be included with the slab forming plans submitted to the Engineer for review and approval. (d) To counteract torsion effects, diafram concrete shall be placed and cured and the diafram bars tightened prior to slab placing. Holes in steel members for support of overhang brackets may be punched or drilled full size or may be torch cut to Y4 inch under size and reamed lull size. In no case shall the holes be bumed full size. The hole shall be left open unless indicated to be filled with a button head bolt. They shall never be filled by welding. Air or Concrete Temperature whichever is higher 35Fto79F Over 80 F 90 F or above 75 F to 89 F 35 F to 74 F Nonagitated Concrete Agitated Concrete Maximum Time 30 minutes 15 minutes 45 minutes 60 minutes 90 minutes Page 6 Concrete Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 The use of an approved retarding agent in the concrete will permit the extension of each of the above temperature -time maxi- mums by 30 minutes for bridge decks. top Slabs of direct traffic culverts and cased drilled shafts and 1 hour for all other concrete except that the maximum time shall not exceed 30 minutes for nonagitated concrete. From the time of initial stnkeoff -until final finish is completed and required interim curing is in place. the unformed surfaces of slab concrete in bridge decks and top slab of direct traffic culverts and concrete slabs shall be kept damp, not wet, to offset the ettects of rapid evaporation of mixing water from the concrete due to wind, temperature, low humidity or combinations thereof. Fogging equipment capable of applying water In the form of a fine fog mist, not a spray, will be required. Fogging will be applied at the times and in the manner directed by the Engineer. Fogging equipment may be either water pumped under high pressure or a combination of air and water, either System in com- bination with a proper atomizing nozzle. The equipment shaft be sufficiently portable for use in the direction of any prevailing winds. The equipment shall be adapted for intermittent use to prevent excessive wetting of the surfaces. Upon completion of the final finish, interim curing will be required for slab concrete in bridge decks and top slabs of direct traffic culverts as follows: (1) Required water curing shall begin as soon as it can be done without damaging the concrete finish. (2) Unless otherwise indicated, Type 1 membrane curing compound (Resin Base Only) shall be applied to the slab surface. The Contractor shall give the Engineer sufficient advance notice before placing concrete in any unit of the structure to permit the review of forms, reinforcing steel placement and other preparations. Concrete shall not be placed in any unit prior to the comple- tion of form work and placement of reinforcement therein. Concrete mixing, placing and finishing shall be done in daylighl hours, unless adequate provisions are made to light the entire placement site. Concrete placement will not be permitted when impending weather conditions will impair the quality of the finished work. 11 rainfall should occur after placing operations are started, the Contractor shall provide ample covering to protect the work. If conditions of wind, humidity and temperature are such that concrete cannot be placed without cracking, concrete placement shall be done in the early morning or at night. The sequence for placing concrete shall be as indicated or as required herein. The placing shall be regulated so the pressures caused by the plastic concrete shall not exceed the loads used in the form design. The method of handling, placing and consolidation of concrete shall minimize segregation and displacement of the reinforce- ment and produce a uniformly dense and compact mass. Concrete shalt not have a free fall of more than 4 feet, except in the case of thin wall sections. Any hardened concrete spatter ahead of the plastic concrete shall be removed. The method and equipment used to transport concrete to the forms shall be capable of maintaining the rate of placement. Con- crete may be transported by buckets, chutes, buggies, belt conveyors, pumps or other acceptable methods. When belt conveyors or pumps are used, sampling for testing will be done at the discharge end. Concrete transported by con- veyors shall be protected from sun and wind, it necessary, to prevent loss of slump and workability. Pipes through which concrete is pumped shall be shaded and /or wrapped with wet burlap, if necessary, to prevent loss of slump and workability. Concrete sha not be transported through aluminum pipes, tubes or other aluminum equipment. The coarse aggregate content of the concrete shall be within the limits specified in Item No. 403, "Concrete for Structures ". Chutes, troughs, conveyors or pipes shall be arranged and used so that the concrete ingredients will not be separated. When steep slopes are necessary, the chutes shall be equipped with baffle boards or made in short lengths that reverse the direction of movement or the chute ends shall terminate in vertical down- spouts. Open troughs and chutes shall extend, i1 necessary, down inside the forms or through holes left in them. All transporting equipment shall be kept clean and free from hardened concrete coatings. Water used for cleaning shall be discharged clear of the concrete. Each part of the forms shall be filled by depositing concrete as near its final position as possible. The coarse aggregate shall be worked back from the face and the concrete forced under and around the reinforcement bars without displacing them. Depositing large quantities at one point and running or working it along the forms will not be allowed. • Concrete shall be deposited in the forms in layers of suitable depth but not more than 36 inches in thickness, unless otherwise directed by the Engineer. The sequence of successive layers or adjacent portions of concrete shall be such that they can be vibrated into a homogeneous mass with the previously placed concrete without a cold joint. Not more than 1 hour shall elapse between adjacent or successive placements of concrete. Unauthorized construction joints shall be avoided by placing all concrete between the authorized loints in one continuous operation. 410 Rev. 03130187 Page 7 Concrete Structures An approved retarding agent shall be used to control stress cracks and/or authorized cold joints fn mass placements where differential setttement and/or setting time may induce stress cracking, such as on false work, in deep girder stems, etc. Openings in terms shall be provided, i1 needed, for the removal of laitance or foreign matter of any kind. All forms shall be wetted thoroughly before the concrete is placed therein. Alt concrete shall be well consolidated and the mortar flushed to the form surfaces by continuous working with immersion type vibrators. Vibrators which operate by attachment to tarns or reinforcement will not be permitted, except on steel forms. At least 1 standby 'vibrator shall be provided for emergency use in addition to the ones required for placement. For lightweight concrete. vibrators o1 the high frequency type which produce a minimum of 7000 impulses per minute will be reeuired. The concrete shall be vibrated immediately after deposition. Prior to the beginning of work, a systematic spacing of the points of vibration shalt be established to insure complete consolidation and thorough working of the concrete around the reinforcement. embedded fixtures and into Inc comers and angles of the loans. Immersion type vibrators shall be inserted vertically, at points 18 to 30 inches apart and slowly withdrawn. The vibrator may be inserted in a sloping or horizontal position in shallow slabs. The entire depth of each lift shall be vibrated. allowing the vibrator to penetrate several inches into the preceding lift. Concrete along construction joints shall be thoroughly consolidated by operating the - vibrator along and close to but not against the joint surface. - The vibration shall continue until thorough consolidation and complete embedment of reinforcement and fixtures Is produced. but not long enough to cause segregation. Vibration may be supplemented by hand spading or rodding, i1 necessary, to insure the flushing Of mortar to the surface Of all forms. Holes for anchor bolts in piers. abutments, bents or pedestals may be drilled Or.lormed by the insertion of oiled wooden plugs Or metal sleeves in the plastic concrete. Formed holes shalt be large enough to permit horizontal adjustments 01 the b0115. The bolts shall be carefully set in mortar. In lieu of the above. anchor bolls may be set to exact locations when the concrete I5 placed. Slab concrete shall be mixed in a plant located oft the structure. Carting or wheeling concrete batches over completed slabs will not be permitted until they have aged at least 4 lull curing days or timber planking. placed on top of the slab for the cans 10 Traverse along Cans shall be equipped with pneumatic tires. Curing operations shall not be Interrupted for the purpose of wheel. Ong concrete over finished slabs.' Exposed concrete surfaces, while still plastic. shall be stamped with an impression having the Contractor's name. the month and year. The stamp shall be of an approved design. Alter concrete has taken IIS initial set. to prevent damage to the concrete at least 1 curing day shall elapse belore placing strain on 010180:mg reinforcement. The storing of reinforcing or structural steel on completed roadway slabs generally shall be avoided and when permitted. snail be timed to quantities and distribution That will not Induce excessive stresses. 410.12 Placing Concrete in Cold Weather (1) General The Contractor i5 responsible for the protection of concrete placed under any and all weather Conditions and is responsible tor producing concrete equal in quality to Mal placed under normal conditions. Should concrete placed under adverse weather conditions prove unsatisfactory, it shall be removed and replaced. (2) Cast -in -Place Concrete Concrete may be placed when the atmospheric temperature Is not less than 35 F. Concrete shall. not be placed in contact with any material coaled with Trost or having a temperature less than 32 F Aggregates shall be tree from ice. frost and frozen lumps. When required, In order to produce the minimum specified concrete temperature, the aggregate and/or the water shall be heated uniformly. in accordance with the following, The wafer temperature shall not exceed 180 F and/or the aggregate temperature shall not exceed 150 F. The heating apparatus shall heal the mass of aggregate uniformly. The temperature of the mixture of aggregates and water shall be between 50 F and 85 F before introduction of the cement. 4 10 Rev. 09130/87 All concrete shall be effectively protected as follows: The temperature of slab concrete of all unformed- surfaces shall be maintained at 50 F or above for a period of 72 hours from time of placement and above 40 F for an additional 72 hours. (b) The temperature at the surface of all concrete in bents, piers. culvert walls, retaining walls. parapets, wingwalls, bottom of slabs and other similar Corms shall be maintained at 40 F or above for a period o1 72 hours from time of placement. (a) Page 8 Concrete. Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (c) The temperature of all concrete, including the bottom slabs of culverts placed on or in the ground: shah be maintained above 32 F for a period of 72 hours fromtime of placement. • • Protection shall consist of providing additional covering, insulated Corms or other means and if necessary, supple- menting such covering with artificial heating. Curing shall be provided during this period until all requirements for curing have been satisfied. When impending weather conditions indicate the possibility of the need for such temperature protection, all neces- sary heating and covering material shall be on hand ready for use before permission is granted to begin placement. Sufficient extra test specimens will be made and cured with the placement to ascertain the condition of the concrete as placed prior to form removal and acceptance. (3) Precast Concrete A fabricating plant for precast products which has adequate protection from cold weather in the form of permanent or portable framework and covering. which protects the concrete when placed in the forms and is equipped with ap- proved steam curing facilities may place concrete under any low temperature conditions provided: (a) The framework and covering are placed and heat is provided for the concrete and the forms within 1 hour after the concrete is placed. This shall not be construed to be 1 hour after the last concrete is placed. but that no concrete shall remain unprotected longer than 1 hour. (b) Steam heat shall keep the air surrounding the concrete between 50 F and 85 F for a minimum of 3 hours prior to beginning the temperature rise which is required for steam curing. 410.13 Placing Concrete In Hot Weather When the temperature of the air is above 85 F, an approved retarding agent will be required in all exposed concrete, concrete used in superstructures, top slabs of direct traffic culverts and all cased drilled shafts regardless of temperatures. The maximum temperature of all concrete, unless otherwise indicated shall not exceed 95 F. 410.14 Placing Concrete in Water Concrete shall be deposited in water only when indicated or with written permission of the Engineer. The forms, cofferdams or caissons shall be sufficiently tight to prevent any water current passing through the space in which the concrete is being depos- ited. Pumping will not be permitted during the concrete placing nor until it has set for at least 36 hours. The concrete shall be placed with a tremie, closed bottom -dump bucket or other approved method and shall not be permitted to fall freely through the water nor shall it be disturbed after it has been placed. Its surface shall be kept approximately level during placement. The tremie shall consist of a water -tight tube 14 inches or less in diameter. It shall be constructed so that the bottom can be sealed and opened after it is in place and fully charged with concrete. It shall be supported so that it can be easily moved horizon- tally to cover all the work area and vertically to control the concrete flow. Bottom -dump buckets used for underwater placing shall have a capacity of not less than '/2 cubic yard. It shall be lowered gradu- ally and carefully until it rests upon the concrete already placed and raised very slowly during the upward travel; the intent being to maintain still water at the point of discharge and to avoid agitating the mixture. The placing operations shall be continuous until the work is complete. Unless otherwise indicated, all concrete placed under water shall be Class E. 410.15 Placing Concrete In Superstructure Unless otherwise indicated, simple span roadway slabs shall be placed without transverse construction joints by using a longitu- dinal screed or a self propelled transverse finishing machine. The screed shall be adequately supported an a header or rail system sufficiently stable to withstand the longitudinal or lateral thrust of the equipment. Unless otherwise indicated, temporary intermediate headers will be permitted for placements exceeding 50 feet in length for the longitudinal screed, provided the rate of placement is rapid enough to prevent a cold joint and these headers are designed for early removal to permit satisfactory consol- idation and finish of the concrete at their locations. Unless otherwise indicated, slabs on continuous units shall be placed in one continuous operation without transverse construc- tion joints using a longitudinal screed or a self propelled transverse finishing machine. Rails for transverse finishing machines supported from the beams or girders shall be installed so they may be removed without damage to the slab. Bond between removable supports and the concrete shall be prevented in a manner acceptable to the Engineer. Rail support parts which re- main embedded in the slab shall not project above the upper mat of reinforcing steel. Rail or screed supports attached to I -beams or girders shall be subject to "General Requirements" stated above. 410 Rev. 09/30/87 Page 9 Concrete Structures For continuous placements of slab on steel or prestressed members, continuous slab and girder units or continuous slab spans, the Contractor shall submit his rate of placement schedule. For simple span units, a minimum rate of placement for a particular unit may be indicated. If not so indicated, the Contractor shall satisfy the Engineer that the equipment furnished Is capable of placing, finishing and curing the slab at an acceptable rate to insure compliance with the specifications. The profile gradeline may require adjustment, due to variation in beam camber and other factors, to obtain the required cover over the slab reinforcement. Beams shall be set in a sufficient number of spans so that when adjustment is necessary the profile gradeline can be adjusted over suitable increments so that the revised gradeline will produce a smooth riding surface. One or more passes shall be made with the screed over the bridge deck segment prior to the placement of concrete thereon to insure proper operation and maintenance of grades and clearances. Slab concrete shall be deposited between the exterior beam and the adjacent beam prior to placing concrete in the overhang portion of the slab. For transverse slab finishing, concrete shall be placed in transverse strips, proceeding from the lowest end of the placement. For longitudinal screeding, concrete shall be placed in longitudinal strips starting at a point in the center of the segment adjacent to one side, except as provided herein and the strip completed by placing uniformly in both directions toward the ends except that for spans on a grade of 1.5 percent or more, placing shall start at the lowest end. The width of strips shall be such that the concrete therein will remain plastic until the adjacent strip is placed. Where monolithic curb construction is specified, the con- crete shall be placed therein in proper sequence to be monolithic with the adjacent longitudinal strips of the slabs. Forms for the bottom surface of concrete slabs, girders and overhangs shall be maintained true to the required vertical alignment during concrete placing. An approved system of checking shall be used to detect any vertical movement of the fors or falsework. Unless otherwise indicated, girders, slab and curbs of deck girder spans shall be placed monolithically. The girder stems shall be filled first and the slab concrete placed within the time limits specified in "Placing Concrete, General" above. Construction joints when permitted for slab placements on steel and prestressed concrete beams shall be as indicated. Where plans permit segmental placing, without specifying a particular order of placement, an logical placing sequence which will not result in the overstressing of any of the supporting members will be permitted subject to the approval of the Engineer. • Any falsework under steel girder or truss spans shall be released and the spans swung free on their perrnanent supports before placing any slab concrete thereon. When the curb forms are filled, the top of curb and sidewalk section shall be brought to the correct camber and alignment and finished as described in "Treatment and Finishing of Horizontal Surfaces Except Roadway Slabs" and "Ordinary Surface Finish ", below. The slab shall be finished as specified in "Finish of Roadway Slabs ", below. When the slab is to receive an additional wearing surface or level -up (widening), it shall be given a reasonable smooth float or screed finish. 410.18 Placing Concrete in Concrete Arches Concrete shall be placed in arch rings so the loading is kept symmetrical on the falsework. The arch rings and ribs shall be placed in one continuous operation unless otherwise indicated or permitted by the Engineer. The spandrel walls or columns and the beams shall not be placed until the arch is swung. Floor slab, railing, parapet walls, etc., shall not be placed until all spandrels are complete. Slab placement shall be symmetrical about the transverse centerline so the loading of the arch is kept approxi- mately symmetrical. The placing sequence shall be as indicated. 410.17 Placing Concrete in Box Culverts In general, construction joints will be permitted only where indicated. Where the top slab and walls are placed monolithically in culverts more than 4 feet in clear height, an interval of not less than 1 nor more than 2 hours shall elapse before placing the top slab to allow for shrinkage In the concrete wall. The base slab shall be trowel finished accurately at the proper time to provide a smooth uniform surface. Top slabs which carry traffic shall be finished as specified for roadway slabs in "Finish of Roadway Slabs,' below. Top slabs of fill type culverts shalt be given a reasonably smooth float finish. 410.18 Placing Concrete in Foundations and Substructure Concrete shall not be placed in footings until the depth and character of the foundation has been inspected by the Engineer and permission has been given to proceed. 410 Rev. 09/30/87 Page 10 Concrete Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Placing of concrete footings upon seal courses will be permitted after the caissons or cofferdams are free from water and the seal course cleaned. Any necessary pumping or bailing during the concrete placement shall be done from a suitable sump located outside the forms. All temporary wales or braces inside cofferdams or caissons shall be constructed or adjusted as the work proceeds to prevent unauthorized construction joints in footings or shafts. When footings can be placed in a dry excavation without the use of cofferdams or caissons, forms may be omitted if desired by the Contractor and approved by the Engineer and the entire excavation tilled with concrete to the elevation of the top of footing in which case measurement for payment will be based on the footing dimensions indicated. Concrete in columns shall be placed monolithically unless otherwise indicated. Columns and caps and /or tie beams supported thereon may be placed in the same operation. To allow for shrinkage of the column concrete, it shall be placed to the lower level of the cap or tie beam and placement delayed for not less than 1 hour nor more than 2 before proceeding. 410.19 Treatment and Finishing of Horizontal Surfaces Except Roadway Slabs All unformed upper surfaces shall be struck off to grade and finished. The use of mortar topping for surfaces under this classifica- tion will not be permitted. After the concrete has been struck off, the surface shall be floated with a suitable float. Bridge sidewalks shall be given a wood float or broom finish or may be striped with a brush as specified by the Engineer. The tops of caps and piers between bearing areas shall be sloped slightly from the center toward the edge and the tops of abutments and transition bents sloped from the backwall to the edge, as directed by the Engineer, so that water will drain from the surface and shall be given a smooth trowel finish. When indicated, the coating of caps and piers shall be done using Type x epoxy material. Unless otherwise indicated, the color shall be concrete gray. Bearing areas for steel units shall be constructed in such a manner to have a lull and even bearing upon the concrete When the concrete is placed below grade, bearing areas may be raised to grade an beds of Portland Cement mortar consisting of 1 pan cement, 2 parts sand and a minimum amount of water. Bearing seat buildups or pedestals for concrete units may be cast integrally with the cap or with a construction joint as follows: The construction joint area under the bearing shall have the surface roughened thoroughly as soon as practical atter initial set is obtained. The bearing seat buildups shall be placed using a latex based grout or an epoxy grout, mixed in ac- cordance with the manufacturer's recommendation. Pedestals shall be placed using Class C concrete, reinforced as indicated. Bearing areas under elastomeric pads shall be given a slightly textured wood float finish. 410.20 Finish of Roadway Slabs In all roadway slab finishing operations, camber for specified vertical curvature and transverse slopes shall be provided. For concrete slab or concrete girder spans cast in place on falsework, an additional amount of camber shall be provided to offset the initial and final deflections of the span. The additional amount of camber shall be determined from the dead load deflection diagram indicated. When dead load deflection is not indicated, the additional amount of camber shall be Ye inch per 10 foot of span length but not to exceed Y2 inch. For pan girder spans the additional camber for initial and final deflections shall be approxi- mately 1/2 inch for 30 foot spans and' /. inch for 40 foot spans. Roadway slabs supported on prestressed concrete beams, steel beams or girders shall receive no additional camber, except that for slabs without vertical curvature, the longitudinal camber shall be approximately 1 inch. Work bridges or other suitable facilities shall be provided from which to perform all linishing operations and check measurements for slab thickness and reinforcement cover. As soon as the concrete has been placed and vibrated in a section of sufficient width to permit working, the surface shall be struck off, leveled and screeded, carrying a slight excess of concrete ahead of the screed to insure filling of all low spots. The screed shall be designed rigid enough to hold true to shape and shall have sufficient adjustments to provide for the required camber. A vibrating screed shall be used in all slabs more than 20 feet in width- A vibrating screed may be used if heavy enough to prevent undue distortion. The screeds shall be provided with a metal edge. Longitudinal screeds shall be moved across the concrete with a sawlike motion while their ends rest on headers or templates set true to the roadway grade or on the adjacent finished slab. The surface of the concrete shall be screed a sufficient number of times and at such intervals to produce a uniform surface, true to grade and free of voids. 11 necessary, the screed surface shall be worked to a smooth finish with a long handled wood or metal float of the proper size or hand floated from bridges over the slab. 410 Rev. 09/30/87 Page 11 Concrete Structures The Contractor shall perform sufficient checks with a long handled 10 foot straightedge on the plastic concrete to insure that the final surface will be within the tolerances specified below. The check shall be made with the straightedge parallel to and perpen- dicular to the centerline. Each pass thereof shall lap half of the preceding pass. All high spots shall be removed and all depres- sions over inch in depth shall be filled with fresh concrete and floated. The checking and floating shall be continued until the surface is true to grade and tree of depressions. high spots, voids or rough spots. Rail support holes shall be filled with concrete and finished to match the top of the slab. A broom finish shall be applied with longitudinal screeding. A broom or burlap drag finish shall be applied with transverse screeding. Unless otherwise indicated, the burlap drag shall consist of 4 or more layers of 10 ounce burlap fabric, free of seams, dirt or hardened concrete; it shall be kept wet when in use and it shall be drawn over the surface in as many passes as required to produce the desired texture depth. Broom finishes shall be applied with stiff bristled brooms. The Contractor shall have on hand at all times brooms for the purpose of providing the desired texture depth when surface conditions are such that the burlap drag will not provide it. • Upon completion of the floating and/or straightedging and before the disappearance of the moisture sheen, the surface shall be given a broom or burlap drag finish. The grooves of these finishes shall be parallel to the structure centerline. It is the intent that the average texture depth resulting from the number of tests directed by the Engineer be not less than 0.035 inch with a minimum texture depth of 0.030 inch for any one test when tested in accordance with SDHPT Test Method Tex- 436-A. Should the texture depth fall below that intended, the finishing procedures shall be revised to produce the desired texture. At the option of the Contractor or when indicated, the surface shall be given its final texture by saw grooving to meet the above requirements. Saw grooving may be done a minimum of 4 days after the slab concrete has been placed. If saw grooving is done prior to the completion of curing, the curing shall be continued after sawing to provide the minimum curing time required. When the plans require that a concrete overlay be placed on the slab (new construction) or on prestressed concrete box beams, the slab or top surface of shear key and diafram concrete shall be given a metal tine finish of approximately 0.050 inch. When the plans indicate an asphaltic tack coat and overlay be placed on the slab (new construction) or on prestressed concrete box beams, the slab or the top surface al shear key and diafram concrete shall be given a lightly textured broom finish, similar to a sidewalk finish having an average texture depth of approximately 0.025 inch. After the concrete has attained its final set, the roadway surface shall be tested with a standard 10 foot straightedge. The straightedge shall be placed parallel to and perpendicular to the centerline of roadway to bridge any depressions and touch high spots. Ordinates of irregularities measured from the face of the straightedge to the surface of the slab shall not exceed V. inch, making proper allowances for camber. vertical curvature and surface texture. Occasional variations, not exceeding �/,e inch will be acceptable, if in the opinion of the Engineer it will not affect the riding qualities. Irregularities exceeding the above requirements shall be corrected. Areas which are corrected to produce satisfactory riding qualities shall be provided with an acceptable surface texture in a manner approved by the Engineer. • 410.21 Placing Survey Monuments The Contractor shall obtain City Survey Monuments, for a fee of $10.00, from the Transportation and Public Services Department, Construction Inspection. Monuments shall be imbedded in freshly poured concrete at locations indicated and accessible to sur- vey equipment at the completion of the project. The monuments shall be installed flush with the adjacent concrete in a workman like manner. 410.22 Curing Concrete The Contractor shall inform the Engineer fully of the methods and procedures proposed for curing, shall provide the proper equipment and material in adequate amounts and shall have the proposed method, equipment and material approved prior to placing concrete. Inadequate curing and/or facilities therefor shall be cause for the Engineer to notify the Contractor, in writing, that the work is unsatisfactory and the concrete will have to be removed and replaced._ All concrete shall be cured for a period of 4 curing days except as noted herein. Exceptions to 4 Day Curing Description Required Curing Upper Surfaces of Bridge Slabs and Top Slabs 8 curing days (Type 1 or III cement) of Direct Traffic Culverts. 10 curing days (Type II cement) Concrete Piling (nonprestressed) 6 curing days 410 Rev. 09130187 Page 12 Concrete Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 When the air temperature is expected to drop below 35 F, the water curing mats shalt be covered with polyethylene sheeting, burlap- polyethylene blankets or other Material to provide the protectipn required by "Placing Concrete in Cold Weather", below. A curing day is defined as a calendar day when the temperature, taken in the Shade away from artificial heat, is above 50 F for at least 19 hours (or colder days it satisfactory provisions are made to maintain the temperature at all surfaces of the concrete above 40`F for the entire 24 hours). The required curing period shall begin when ail concrete therein has attained its initial set. The following methods are permitted for curing concrete subject to the restrictions of Table 1, below and the following require- ments for each method of curing. (1) Form Curing (3) 410 Rev. 09130/87 When forms are left in contact with the concrete, other curing methods wit not be required except for cold weather protection. When forms are striped before the 4 day minimum curing time has elapsed, curing shall continue by an approved method. (2) Water Curing All exposed surfaces of the concrete shall be kept wet continuously for the required curing time. The water used for curing shall meet the requirements for concrete mixing water as indicated in Item No. 403, "Concrete for Structures ". Sea water will not be permitted. Water which stains or leaves an unsightly residue shall not be used. (a) Wet Mat Polyethylene sheeting or burlap - polyethylene blankets placed in direct contact with the slab will be required when the air temperature is expected to drop below 40 F during the first 72 hours of the curing period. Wet mats placed in direct contact with the slab will be required when the air temperature is expected to remain above 40 F for the first 72 hours of the curing period. Damp burlap blankets made from 9 ounce stock may be placed on the damp concrete surface for temporary protection prior to the application of the cotton mats which may be placed dry and wetted down after placement. The mats shall be weighted down adequately to provide continuous contact with all concrete surfaces where possible. The surfaces of the concrete shall be kept wet for the required curing time. Surfaces which cannot be cured by contact shall be enclosed with mats, anchored positively to the forms or to the ground, so that outside air cannot enter the enclosure. Sufficient moisture shall be provided inside the enclosure to keep all surfaces of the concrete wet. (b) Water Spray This method shall consist of overlapping sprays or sprinklers that keep all unformed surfaces continuously wet. (c) Ponding This method requires the covering of the surfaces with a minimum of 2 inches of clean granular material, kept wet at all times or a minimum of 1 inch depth of water. Satisfactory provisions shall be made to provide a dam to retain the water or saturated sand. Membrane Curing Unless otherwise indicated, either Type 1 -D or Type 2 membrane curing compound may be used where permitted except that Type 1 -D (Resin Base Only) will be permitted for slab concrete in bridge decks and top slabs of direct traffic culverts. STRUCTURE UNIT DESCRIPTION TABLE 1 1. Upper surfaces of Bridge Roadway, X X Median and Sidewalk Slabs, Top Slabs of (resin base) Direct Traffic Culverts. REQUIRED PERMITTED Water Membrane Water Membrane for Complete for Interim for Complete for Complete Curing Curing Curing Curing Page 13 Concrete Structures TABLE 1 (continued) REQUIRED PERMITTED Water Membrane Water Membrane STRUCTURE UNIT for Complete for Interim for Complete for Complete DESCRIPTION Curing Curing Curing Curing 2. Top Surface of any Concrete Unit upon X *X *X which Concrete is to be placed and bonded at a later interval (Stub Walls, Risers, etc.). Other Superstructure Con- crete (Curbs, Wingwalls, Parapet Walls, etc.). 3. Top Surface of Precast and/or Pre- X X stressed Piling. 4. All Substructure Concrete Culverts, *X * X Box Sewers, Inlets, Manholes, Retaining Walls, Riprap. *Polyethylene Sheeting, Burlap - Polyethylene Mats or Laminated Mats in close Intimate contact with the concrete surfaces, will be considered equivalent to water or membrane curing for items under 4. For substructure concrete, only one Type of curing compound will be permitted on any one structure. Material requirements and construction methods shall conform to Item No. 409, "Membrane Curing ", except as changed herein. The membrane shall be applied in a single, uniform coating at the rate of coverage recommended by the manufacturer and as approved by the Engineer, but not less than 1 gallon per 180 square feet of area. Tests for acceptance shall be at this specified rate. Membrane curing shall not be applied to dry surfaces but shall be applied just after free moisture has disappeared. Formed surfaces and surfaces which have been. given a first rub shall be dampened and shall be moist at the time of application of the membrane. When membrane is used for complete curing, the film shall remain unbroken for the minimum curing period specified. Membrane which is damaged shall be corrected immediately by reapplication of membrane. Unless otherwise indicated, the choice of mem- brane type shall be at the option of the Contractor, except that the Engineer may require the same curing method for like portions of a'single structure. 410.23 Removal of Forms and Falsework Except as herein provided, forms for vertical surfaces may be removed when the concrete has aged not less than 1 day when Type I or Type 11 cement is used and not less than 1 day when Type III cement is used, provided it can be done without damage to the concrete. Forms for inside curb faces may be removed in approximately 3 hours provided it can be done without damage to the curb. Weight supporting forms and falsework for structures, bridge components and culvert slabs shall remain in place 2 minimum of 4 curing days atter which they may be removed if the concrete has attained a flexural strength of 500 psi as evidenced by strength tests using specimens made from the same concrete and cured under the same conditions as the portion of the structure in- volved. Forms for other structural components may betremoved as specified by the Engineer. Inside forms (walls and top slabs) for inlets, box culverts and sewers may be removed after the concrete has aged not less than 3 days and has acquired a flexural strength of not less than 300 psi, provided an overhead support system, approved by the Engineer, is used to transfer the weight of the top slab to the walls of the box culvert or sewer before the support provided by the forms is removed. If all test beams made for the purpose of form removal have been broken without attaining the required strength, forms shall remain in place for a total of 14 curing days. Formwork supporting weight of concrete, such as beam soffits, joints and other structural elements, may not be removed in less than 14 days and until concrete has attained design minimum compressive strength at 28 days. Determine potential com- pressive strength of in place concrete by testing field cured specimens representative of concrete location of members. The above provisions relative to form removal shall apply only to forms or parts thereof which are constructed to permit removal without disturbing forms or falsework required to be left in place for a longer period on other portions of the structure. Backfilling against walls of Type I or Type II cement shall not take place for a minimum of 7 days. Backfilling against walls of Type III cement shall not take place until the flexural beam Strength has reached 500 psi or the wall has cured for 5 days. 410 Rev. 09/30/87 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Page 14 Concrete Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 410.24 Oefeative Work Any defective work discovered after the forms have been removed, shall be repaired as soon as possible in accordance with "Finishing Exposed Surfaces," below. If the surface of the concrete is bulged, uneven or shows excess honeycombing or form marks, which in the opinion of the Engineer, cannot be repaired satisfactorily, the entire section shall be removed and replaced at the expense of the Contractor. 410.25 Finishing Exposed Surfaces (1) Ordinary Surface Finish An Ordinary Surface Finish shall be applied to all concrete surfaces either as a final finish or preparatory to a higher grade or class of finish. Higher grades and classes of finish shall conform to Item No. 411. "Surface Finishes for Concrete ". Where neither a grade or class of finish is specified, an Ordinary Surface Finish only, will be required. Ordinary Surface Finish shall be provided as follows: After form removal, all porous or honeycombed areas and spalled areas shall be corrected by chipping away all loose or broken material to sound concrete. (2) Rubbed Finish 410 Rev. 09 /30/87 Feather edges shall be eliminated by cutting a face perpendicular to the surface. Shallow cavities shall be repaired using adhesive grout or epoxy grout. If judged repairable by the Engineer, large defective areas shall be corrected using concrete or other material approved by the Engineer. Holes and spells caused by removal of metal ties, etc., as required by "Forms ", above, shall be cleaned and filled with adhesive grout or epoxy grout. Exposed parts of metal chairs on surfaces to be finished by rubbing, shall be chipped out to a depth of ' inch and the surface repaired. All fins, runs, drips or mortar shall be removed from surfaces which remain exposed. Form marks and chamfer edges shall be smoothed by grinding and/or dry rubbing. Grease, oil. dirt, curing compound, etc., shall be removed from surfaces requiring a higher grade of finish. Discoloration resulting from spillage or splashing of asphalt, paint or other similar material shall be removed. Repairs shall be dense, well bonded and property cured and when made on surfaces which remain exposed and do not require a higher finish, shall be finished to blend with the surrounding concrete. Unless otherwise indicated Ordinary Surface Finish shall be the final finish for the following exposed surfaces: inlets. manholes, sewer appurtenances, inside of culvert barrels, bottom of bridge decks between beams or girders, ver- tical and bottom surfaces of interior concrete beams or girders. In general, the lollowing areas shall require a rubbed finish and shall receive a first and second rubbing: (a) The top, exterior and roadway facia of curbs and parapet walls. (b) All concrete surfaces of railing. (c) The exterior vertical facia of slab spans, rigid frames, arches and box girders. (d) The outside and bottom surfaces of facia beams or girders (except precast concrete beams). (e) The underside of overhanging slabs to the point of juncture of the supporting beams. (f) All vertical surfaces of piers, columns, bent caps, abutments, wingwalls and retaining walls which are exposed to view after all backfill and embankments is placed. (g) Exposed formed surfaces of inlet and outlet structures on culverts, transition structures, headwalls and inlets. (h) Such other surfaces specified elsewhere to receive a rubbed finish and such additional surfaces re- quired by the Engineer to receive a rubbed finish. After removal of forms and as soon as the mortar used in pointing has set sufficiently, surfaces to be rubbed shall be wet with a brush and given a first surface rubbing with a medium coarse carborundum stone. This rubbing shall be done before the concrete has cured more than 48 hours. Page 15 Concrete Structures Fed The second rubbing shall present a cleaned uniform appearance free from drip marks and discoloration. It shall be given with a No.30 carborundum stone or an abrasive of equal quality. If the Contractor elects to use an epoxy paint in lieu of the second rubbing, he may do so upon approval of the Engineer. (3) Special Surface Finishes Striated, exposed aggregate and other special surface finishes shall conform to Item No. 411, 'Surface Finishes for Concrete" and /or with the requirements indicated. 410.26 Measurement and Payment . No direct measurement orpayment will be made for the work to be done or the equipment to be furnished under this item, but shalt be considered subsidiary to the particular items required by the bid. Ref: 401, 403, 405, 406, 408, 409, 411 410 Rev. 09/30/87 Page 16 Concrete Structures 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 411.1 Description This item shall govern for the furnishing of alt matenals and the application by the methods of construction indicated for the application of a surface finish to concrete. - 411.2 Materials (1) Masonry Sand Masonry sand shall conform to ASTM C 144. (2) White Cement White cement- shalt conform to ASTM. C 150. (3) Portland Cement All cement unless otherwise indicated shall be Portland Cement conforming to ASTM C 150. (4) Membrane Curing Membrane curing shall conform to Item No, 409, "Membrane Curing ". (5) Adhesive Grout This subsection sets forth the requirements for three epoxy adhesives with different viscosities designed to bond fresh Portland Cement concrete to existing Portland Cement concrete. hardened concrete to hardened concrete and steel to fresh or hardened concrete. These adhesives are as follows: Type V; Standard (medium viscosity) for applying to horizontal and vertical surfaces. This material is suit- able for surface sealing of fine cracks in concrete. Type VI: Low viscosity for application with spray equipment to horizontal surfaces. Type VII: Paste consistency for overhead application and where a high buildup is required. This material is suitable for surface sealing of cracks in concrete which are veed out prior to sealing and for grouting of dowel bars where clearance is 'As inch or less. (a) Mixing Ratio: The ratio of resin and hardener components to be mixed together to form the finished adhesive shall be either 1 to 1 or 2 to 1 by volume. Any specific coloring of resin and/or hardener components desired will be stated by the Engineer. Fillers, pigments, and thixotropic agents. All fillers. pigments and /or thixotropic agents in either the epoxy resin or hardener component must be of sufficiently fine particle size and dispersed so that no appreciable separation or settling will occur during storage. Any fillers present in the low viscosity version must be of such a nature that they will not interfere with application by spray equipment or abrade or damage such equipment. The concrete adhesive shall contain no volatile solvents (b) Consistency: The adhesives shall comply with the following: 150 Maximum must be sufficiently fluid to apply by 77 1 F, Poises trowel or spatula without difficulty Viscosity of mixed adhesive at Pot Life at 77 F, minutes. minimum — 30 Set Time at 77 F, hours, maximum — 12 (Time required to attain 180 psi) Type V 400 Maximum Item No. 411 Surface Finishes for Concrete Type VI Type VII Page 1 04;17,86 411 ( Thixotropy test shall be performed at both 77 and 120 F. Average thickness of cured adhesive remaining on test panel, mils minimum. Samples of the individual components in sealed containers shall be maintained at 115 ± 3 F for 2 weeks. The mixed adhesive prepared from these samples must still comply with the minimum thixotropy requirements. The viscosity of the Type V and Type VI versions must not show an increase of more than 20 percent compared with the viscosity prior to the stability test. The Type VII adhesive must still be sufficiently fluid to apply by trowel or spat- ula without difficulty. (c) Physical Properties of the Cured Adhesive Property Requirements Adhesive Shear Strength, psi, minimum Water Gain, percent by weight, maximum • Ability to bond fresh Portland Cement Concrete to cured Portland Cement concrete, psi. minimum (7 days cure time) Synthetic Resin Paint Type X Epoxy: This is a high solids epoxy coating designed for application by brush or roller. The materials can also be applied by airless spray by addition of a maximum of 5 percent toluene solvent at the direction of the Engineer. Raw Materials Type V Type VII 30 45 2200 0.20 400 The basic raw materials to be incorporated into this coaling are listed below, along with the specific requirements for each material, The final decision as to the quality of materials shall be made by the Engineer. Alter the Engineer has approved the brand names of raw materials proposed by the Contractor, no subsitution will be allowed during the manufacture without prior approval of the Engineer. Epoxy Resin The basic epoxy resin used in the lormulalion shall be an unmodified liquid resin conforming to the following chemi- cal and physical requirements: Viscosity at 25.0 ± 0.1 C, cps. 7.000 to 10.000 Weight per epoxy equivalent. gms per gm — mole 175 to 195 Color (Gardner Number). maximum 5 Hydrolyzable chlorine, maximum percent by weight 0.2 Specific gravity, 25/25 degrees 1.14 to 1.18 Test methods to be used in determining these qualities are listed below: (a) Viscosity — Test for Kinematic Viscosity (ASTM Designation: D 445). (b) Weight per Epoxy Equivalent — Test for Epoxy Content of Epoxy Resins (ASTM Designation: D 1652). (c) Color — Test for Color of Transparent Liquids (Gardner Color Scale) (ASTM Designation: D 1544). (d) Hydrolyzable Chlorine — Test for Hydrolyzable Chlorine Content of Liquid Epoxy Resins (ASTM Desig- nation: D 1726). 411 04/17/86 Page 2 (e) Specific Gravity — Method of Test for Density of Paint, Varnish. Lacquer and Related Products (ASTM Designation: 0 1475). 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Pigment Titanium Dioxide Extender The titanium dioxide used in this formulation shall be equivalent to DuPont R -900. This all be a pure, chalk - resistant, rutlle titanium dioxide meeting Ise requirements of ASTM} 476, Type Ili. The extender used in this formulation shall be Nyad 400, manufactured by Inlerpace Pigments. Specific require- - , ents are as follows: 411.3 Grade of Finish Particle size distribution: Minimum Maximum Minus 20 microns. percent by weight 95 Minus 10 microns, percent by weight - - - - - - 70 - 80 Minus 5 microns, percent by weight - 40 50 , Minus 3 microns, percent by weight 30 40 Minus 1 micron. percent by weight 14 20 Oil Absorption (rub out. Ibs Ibs) 25 maximum Brightness (G.E.) 92.5 minimum (1) General The grade and /or class of finish shall be as described herein and as indicated "Grade" of finish designates the areas to which a higher finish is to be applied beyond the requirements of an Ordi- nary Surface Finish. Four grades of finish are included herein. "Class" of finish designates the materials or the process to be used in providing the grade of finish. Three classes of finish are included herein. • For structures and surfaces not described herein under grade of finish. a class of finish only may be indicated. Where neither a grade nor class is specified, an Ordinary Surface Finish only will be required as specified in Item No 410, "Concrete Structures ". Where the plans specify a grade and class of finish, i.e., Grade 11, Class C, only that type of finish shall be furnished. Where the plans specify a grade of finish only, i.e., Grade 1 Finish, any of the classes of finish may be furnished. Only one class of finish shall be furnished on any individual structure, twin structures or on structures in close proximity to each other, except as specified for prestressed concrete members below. (2) Grade I The following areas shall receive a Class A, B or C (two rub) Finish, except that prestressed members shall receive either a Class A or B Finish only. All concrete surfaces of railing, including the parapet types; exterior vertical faces of slabs, slab spans. arches and box girders; the outside and bottom surfaces of fascia beams or girders (including prestressed members); the under- side of overhanging slabs to the point of juncture of the supporting beam: all exposed vertical surfaces of bents and piers and bottom surfaces of bent caps; all exposed surfaces of tie beams, abutments, bridge wingwalls, culvert headwalls and wingwalls and retaining walls exposed to view after all backfill and embankment is placed. Unless otherwise indicated, the underside of the slab of slab spans shall be finished its entire width. Unless otherwise indicated, exposed surfaces of pump houses and other miscellaneous concrete surfaces shall receive a Class A, B or C (one rub) Finish. (3) Grade 11 All concrete surfaces of railing, including the parapet types, all exposed surfaces of bodge wingwalls and the exterior vertical faces of slabs and slab spans shall receive a Class A, B or C (two rub) Finish. All other surfaces described Page 3 04 17 86 411 under Grade 1 Finish shall receive a Class A or B finish only. The underside of slab spans shall receive an Ordinary Surface Finish only. (4) Grade III • - All concrete surfaces of railing, including the parapet types, all exposed surfaces of bridge wingwalls and the exterior vertical faces of slabs shall receive a Class A, B or C (two rub) Finish. All other surfaces described under Grade I Finish shall receive an Ordinary Surface Finish. (5) Grade IV The lop and roadway faces Only of all concrete railing, including the parapet types, and bridge wingwalls shall re- ceive a Class A, B or C (one rub) Finish. All other surfaces described under Grade I shall receive an Ordinary Sur- face Finish. 411.4 Class of Finish The Class of Finish designates either an adhesive grout material, a paint -type material or a rubbing process applied to surfaces specified in "Grade of Finish ". as required above and/or as indicated. • Unless otherwise indicated, the color shall be concrete gray. (1) Class A This finish shall consist of an adhesive grout textured coating with a minimum ' /. inch thickness. composed of 1 part white cement, 1 part natural (gray) cement, 2 parts masonry sand, 1 part (latex) emulsion and enough water to form a viscous slurry of a consistency that may be applied by spray gun. brush or roller without appreciable running or sagging. The proportions of while and gray cement may be varied slightly to obtain the desired color. Gradation of the masonry sand shall be as required to produce a texture satisfactory to the Engineer. Prepackaged materials meeting These requirements and acceptable to the Engineer as to color. texture and appear- ance will be permitted. (2) Class B The finish shall be a paint -type material. consisting of a synthetic resin, containing fibrous as well as texturing pig- ments. which when applied by a 1 coat spray application at the rate of 45 - 5 square feet per gallon will yield an acceptable textured coaling. Certification by the manufacturer of the above materials will be. required. (3) Class C This finish shall consist of a one rub or two rub system, as the case may be. meeting the requirements set forth below under "Construction Methods ". 411.5 Approval of Surface Finishing Materials The material to be furnished shall meet the requirements of SDHPT Specification D-9-8110. "Structural Coatings latest revision. In addition to the above, the manufacturer shall furnish the following: . (1) At the time of original request for approval of the surface furnishing material, the manufacturer shall supply a 1 gallon sample of the material to the Engineer /Architect, if requested. (2) Each 6 months after approval of the material, the manufacturer shall furnish a notarized certification indicating that the material originally approved has not been changed or altered in any way. Any change in formulation of a surface finish shall require retesting prior to use. The Engineer may request additional information to be submitted such as infrared spectophotometry scan. solids content, etc., for further identification. A change in formula discovered by any of the tests prescribed herein or by other means and not reported and retested, may be cause to permanently bar the manufacturer from furnishing surface finish materials for City work. The City reserves the right to perform any or all of the tests required by this specification as a check on the tests reported by the manufacturer In case of any variance the City tests will govern. 411.6 Construction Methods Prior to application of any of the finishes required herein, concrete surfaces shall be given an Ordinary Surface Finish. For Class A and B materials, concrete surfaces shall be clean and free of dirt, grease, curing compound or any ether bond breaking sub- 411 04/17/86 Page 4 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Stance. CIase A shall be applied on moistened surfaces but Class 6 requires a dry surface. The temperature of the atmosphere, concrete and compound shall be above 50 F for Classes A and B at the time of application. The finished surfaces shall be protected against rain or freezing for a period of 24 hours after application. - Class A materials shall be applied by spraying, by roller or by brush. Class B materials shall be applied by spraying only. All applications shall provide an acceptable texture of the proper coverage. The Class A and a material shall be applied after all preparation work required by Ordinary Surface Finish has been completed. • The Class C Finish shall be performed with a carborundum stone as follows, alter all preparatory work required by Ordinary Surface Finish has been completed. For a two rub system, the first rubbing shall bring the wetted concrete lace to a paste and produce a smooth dense surface without pits, form marks or other irregularities. The use of cement or grout to form the paste will not be permitted. Striping with a brush and washing atter the first rubbing will not be required. Chamfer lines shall be finished during the second rubbing. - • - - - The first rubbing shall be done soon after form removal. Membrane curing, if used, shall be applied after the first rub is complete. Prior to the second rubbing, any remaining curing membrane shall be removed from the surface by brushing. buffing or other satisfactory methods. The second rubbing shall be performed when conditioning the structure for final acceptance. The specified surfaces shall be cleaned of drip marks and discolorations and given a final rubbing. The surface shall be striped neatly with a brush and the paste allowed to take a reset. after which the surfaces shall be washed with clean water leaving them with a neat and uniform appearance and texture. For a one rub system, the rubbing requirements shall be the same as for the first rub above, except chamfer lines shall be finished and the paste spread uniformly, striped with a brush and allowed to take a reset atter which the surfaces shall be washed with clean water leaving them with a neat and uniform appearance and texture. 411.7 Special Surface Finishes (1) General When special surface finishes are required for retaining walls, panels. copings or similar construction. the Contractor shall prepare sample panels for approval of the finish and the method of application. Unless otherwise indicated. panel or pattern arrangement and dimensions may be vaned to achieve a more pleasing appearance or to utilize forming material more efficiently when approved by the Engineer /Architect. Aggregates, materials, variation of panel or pattern arrangement, dimensions and other features affecting the work shall be approved prior to start of the work. (2) Striated Finish The striated (grooved) pattern shall be as indicated or as approved by the Engineer /Architect. The finish shall be made by fining the forms with striated sheets 01 plywood. plastic, fiberglass. metal or other mate- rial acceptable to the EngineerArchilect. The striations on the panels shall be of a smooth. wide pattern, not sharp or angular. A chamfer groove shall be used along all edges of each panel- All ties, bolts or other forming accessories shall be located along the chamfer grooves or panel edges. Exposed Aggregate Finish Exposed aggregate panels may be either raised, recessed or as indicated with the sides of each panel chamfered as directed by the Engineer :Architect. The aggregate used for this finish shall be approved by the EngineerArchilect. Unless otherwise indicated. aggre- gate shall conform to the grading requirements of Grade 2 aggregate except that a minimum of 50 percent shall be retained on the , i/< inch sieve. Gravel 01 predominately rounded particles shall be used. except that when indicated or approved by the Engineer/Architect in writing, crushed stone may be used. The aggregate shall be large enough to remain firmly anchored in the Lace of the final product. The depth shall be s, inch minimum to inch maximum. unless otherwise indicated or directed by the Engineer /Architect. A surface retarder that penetrates the concrete approximately '/a inch shall be applied to the forms or concrete sur- face as an aid in achieving the desired finish. Wood forms may require 2 or 3 coatings to compensate for absorption. Form joints shall be taped or caulked to prevent escape of the retarder during placing operations. Treated form surfaces shall be protected from sun and rain while exposed to the atmosphere. In case of high humid- (3) Page 5 04 17 86 411 ity or if rain has dampened the forms prior to placing concrete. a reapplication of the surface retarder may be re- quired to provide uniform ,overage of the retarder on the forms. Adjacent areas of tress concrete not requiring exposed aggregate finish shall be protected when the retarder is. applied. The finish shall be ohtainea by sandblasting, bush hammering, water blasting or other methods. as approvedby the EngineerArchilect. Horizontal surfaces may be finished by combination of brushing and washing. but only after the concrete has set sufficiently to prevent loosening of the aggregate. Unless otherwise directed by the Engineer, Architect, forms for surface requiring exposed aggregate finish shall be removed 12 to 15 hours atter concrete placement. The exposed aggregate operation shall be accomplished imme- diately atter form removal. Except for the time required for obtaining the exposed aggregate finish, - curing of all sur- faces shall be maintained for the minimum 4 day curing time. All surfaces shall be either water cured or may be cured with an approved clean membrane compound. It water curing is used, it shall be followed by a clear membrane curing compound conforming to Ilem No. 409, "Membrane Curing - . Care shall be taken to ensure proper vibration at all points of concrete placement to prevent honeycomb or segrega- tion of the materials. Vibration shall be done in such a manner as to provide adequate penetration of previously placed concrete lifts. Care shall be taken to prevent contact of the vibrator with the face form. 411.8 Measurement and Payment • No direct measurement or payment will be made for the work to be done, the equipment or materials to be furnished under.this. item. but shall be considered subsidiary to the particular items required by the plans and the contract. End 411 04 17 86 Page 6 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 430.1 Description Item No. 430 Concrete Curb and Gutter This item shall consist of Portland Cement concrete curb or curb and gutter with reinforcing steel as required, constructed on an approved subgrade and base - in accordance with this specification and in conformity with the lines, grades, section and details indicated or as established by the Engineer. 430.2 Materials (1) Concrete Concrete shall conform to Class A Concrete as indicated in Item No. 403, "Concrete for Structures" or Item No. 360, "Concrete Pavement" when the curb and gutter is placed integral with the pavement. (2) Reinforcing Steel • Reinforcing steel shall conform to Item No. -406, "Reinforcing Steel ". (3) Expansion Joint Materials Expansion joint materials shall conform to Item No. 408, "Expansion Joint Materials ". (4) Membrane Curing Compound Membrane curing compound shall conform to Item No. 409, "Membrane Curing ". (5) Flexible Base Aggregate shall conform to Item No. 210, "Flexible Base ". 430.3 Construction Methods Subgrade for curb and gutter shall be excavated and prepared to required depth and width including a minimum of 12 inches behind the curb, unless a greater width is indicated. to construct the work to grades and dimensions indicated. A minimum of 4 inches of flexible base shall be spread, wetted and thoroughly compacted under curb and gutter as specified in Item No 210. "Flexible Base ". If dry, the base shall be sprinkled with water lightly before concrete is deposited thereon. Forms shall be of metal or well seasoned wood. The length of the forms shall be not less than 10 feet. Flexible or curved forms shall be used for curves of 100 foot radius or less. Wood forms for straight sections shall be not less than 2 inches in thickness. Forms shall be clean, straight, free from warp and oiled with a light form oil. All forms shall be securely staked to line and grade and maintained in a true position during the depositing of concrete. The reinforcing steel shall be placed in position as shown on the typical section. Care shall be exercised to keep all steel in its proper location. Expansion joint material, Y. inch in thickness, shall be provided at intervals not to exceed 40 feet and shall extend the full width and depth of the concrete. Weakened plane joints shall be made'/. inch deep at 10 foot intervals. All joint headers shall be braced perpendicular and at right angles to the curb. Two round smooth dowel bars, '/z inch in diameter and 24 inches in length. shall be installed at each expansion joint. Sixteen inches of one end of each dowel shall be thoroughly coated with hot oil, asphalt or red lead, so that it will not bond to the con- crete. The dowels shall be installed with a dowel sleeve on the coated end as indicated or equivalent as directed by the Engineer. Concrete shall be placed in the forms, rodded and tamped to exclude all air and honeycomb. Not more than 1 hour after the concrete has been placed, a thin coating not more than 'h inch nor less than '/4 inch thick of finish mortar, composed of 1 parr Portland Cement to 2 parts fine aggregate, shall be worked into the exposed faces of the curb and gutter by means of a "mule' After the concrete has become sufficiently set, the exposed edges shall be rounded by the use of an edging tool to the radii indicated. The entire exposed surface of the curb and gutter shall be floated to a uniform smooth surface. then finished with a camel hair brush to a gritty texture. The forms shall remain in place a minimum of 24 hours unless approved otherwise by the Engineer. After removal of the forms, any minor honeycombed surfaces shall be plastered with a mortar mix as described above Excessively honeycombed curb and gutter, as determined by'the Engineer, shall be completely removed and replaced when directed. The finished concrete, while still plastic, shall be stamped with an impression having the Contractor's name and the month and year. The stamp shall be of approved design and impressions shall be made on the face of the curb at or near street intersections and not exceeding 350 feet apart or as directed by the Engineer. Page 1 04/17/86 430 Immediately after finishing the curb, concrete shall be protected by a membrane curing conforming to Item No. 409, "Membrane Curing" After a minimum of 3 days curing and before placing the final course base, the curb shall be backfllled to the full height of the concrete, tamped and sloped as directed by the Engineer. The top 4 inches of backfill shall be of clean topsoil, free of stones and debris conforming to Item No. 604, "Seeding for Erosion Control" when turf is to be established. 430.4 Measurement Accepted work as prescribed by this item will be measured by the linear foot of concrete curb and gutter, complete in place. 430.5 Payment The work performed as prescribed by this item will be paid for at the unit price bid per linear foot for "Concrete Curb and Gutter', which price shall be full compensation for all work as set forth and described under payment Method A, B, C or D. Method A (Pay Item No. 430 -A) This payment method includes all the work performed for "Concrete Curb and Gutter'. complete, at the unit price bid, which price shall be full compehsation for excavation, preparing the subgrade, for furnishing and placing all base material, reinforcing steel, dowels, expansion joint material, curing material, backfilling and for all other materials, manipulations, labor, tools, equipment and incidentals necessary to complete the work. Method B (Pay Item No. 430 -13) This payment method includes all the work performed for "Concrete Curb and Gutter ", complete, at the unit price bid, which price shall be full compensation for fine grading, for furnishing and placing reinforcing steel, dowels, expansion joint material, curing material, backfilling and for all other materials, manipulations, labor, tools, equipment and incidentals nec- essary to complete the work. Method C (Pay Item No. 430 -C) This payment method includes all the work performed for "Concrete Curb ", complete, at the unit price bid, which price shall be full compensation for fine grading, for fumishing and placing reinforcing steel, dowels, expansion joint material, curing material, backfilling and for all other materials, manipulations, labor, tools, equipment and incidentals necessary to com- plete the work. Method D (Pay Item No. 430 -0) This payment method includes at the work performed for "Concrete Curb ", complete, at the unit price bid, which price shall be full compensation for excavation, preparing the subgrade, for finishing placing all base material, reinforcing steel, dowels, expansion joint material, curing material, backfilling and for other materials, manipulations, labor, tools, equipment and incidentals necessary to complete the work. Payment will be made under one of the following: Pay Item No. 430 -A: Concrete Curb and Gutter — Per Linear Foot. Pay Item No. 430 -B: Concrete Curb and Gutter — Per Linear Foot. Pay Item No. 430 -C: Concrete Curb — Per Linear Foot. Pay Item No. 430 -0: Concrete Curb — Per Linear Foot. End 430 04/17/86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 433.2 Materials Item No. 433 Concrete Driveways 433.1 Description This item shall consist of concrete driveways, composed of Portland Cement concrete, constructed as herein specified on an approved subgrade, in conformity to the lines, grades and details indicated or as established by the Engineer /Architect. (1) Concrete • Concrete shall be Class A and shall cdnform to Item No 403, "Concrete tor Structures ". (2) Reinforcing Steel Reinforcing steel and welded wire fabric shall conform to Item No. 406. "Reinforcing, Steel ". (3) Expansion Joint Materials / Expansion joint materials shall conform to Item No. 408, - Expansion Joint Materials ". (4) Membrane Curing Compound Membrane curing compound shall conform to Item No. 409, - Membrane Curing ". (5) Cushion The Cushion shall be crusher screenings, gravel or coarse sand. 433.3 Construction Methods All forms and forming, placement of reinforcement, placement of concrete. form removal, finishing and curing shall conform to Item No. 410, "Concrete Structures`. The subgrade shall be excavated and shaped to the lines, grades and cross sections indicated or as directed by the Engineer/ Architect and shall be thoroughly compacted conforming to Item No. 201. " Subgrade Preparation ". A 2 inch minimum compacted thickness cushion shall be spread, wetted thoroughly, tamped and leveled. The cushion shall be moist at the time the concrete is placed. If the subgrade is undercut or natural ground is below top of subgrade the necessary backfill shall be made with an approved material and compacted with a mechanical tamper. Hand tamping will not be permitted. Where the subgrade is gravel or 70 percent of which is rock, the 2 inch cushion, need not be used. The Engineer /Architect will determine if the subgrade meets the above requirements. Forms shall be metal•of a section satisfactory to the Engineer /Architect or wood not less than 2 inches nominal thickness for straight runs and 1 inch nominal thickness for radius of a section satisfactory to the Engineer; clean, straight, free from warp and of a depth equal to the thickness of the finished work. All forms shall be securely staked to line and grade and maintained in a true position during the depositing of concrete. Before concrete is placed, forms shall be thoroughly oiled with a light form oil. Expansion joint material, / inch thick, shall be provided where the new construction abuts the existing sidewalks or driveways or as directed by the Engineer/Architect. The expansion joint material shall be placed vertically and shall extend the full depth of the concrete. Similar expansion material shall be placed around all obstructions protruding through the driveway. Dummy joints shall be on 10 foot centers or as directed by the Engineer /Architect. Normal dimension of the weakened plane groove joints shall be 1/4 inch wide and Y. inch deep. Reinforcement for Type I driveways shall consist of 1 layer of 6 x 6 — W 1.4 x W 1.4 wire fabric or No. 3 bars placed not more than 18 inches on center, both directions- Reinforcement for Type II driveways shall consist of 1 layer of 6 x 6 — W 2.9 . W 2.9 wire fabric or No. 3 bars placed not more than 18 inches on center, both directions. All reinforcements shall be placed equidistant from the top and bottom of the concrete. Care shall be exercised to keep all steel in its proper position during the depositing of concrete. Splices in wire fabric shall overlap sufficiently to allow two pairs of transverse wires to be tied together and no splice of Tess than 6 inches will be permitted. Splices in the No. 3 bars shall have a minimum lap 0112 inches. Concrete shall be placed in the forms and spaced, tamped and thoroughly compacted until it entirely covers the surface and has a monolithic finish. The top surface shall be floated and troweled to a uniform smooth surface, then finished with a camel hair brush or wood float to a gritty texture. The outer edges and joints shall be rounded with approved tools to a Y< inch radius, Care shall be exercised to prevent loss of dummy joints or rounded edges when applying the brush finish. Page 1 04/17186 433 At the proper time after finishing, the surface shall be protected by a membrane compound curing agent or by wetting cotton or burlap mats. Either method shall be subject to approval by the Engineer /Architect. Traffic shall be barricaded from using the driveway for a minimum of 4 days after initial placing and may be opened to traffic only with approval of the Engineer /Architect. All necessary excavation, filling and grading of the slopes, adjacent to the completed driveways, will be considered incidental work pertaining to this item and will not be paid for directly. The adjacent excavation and grading of the slopes shall be done with topsoil contouring 10 Item No 604. "Seeding for Erosion Control ", in a manner acceptable to the Engineer/Architect. 433.4 Measurement Accepted work performed as prescribed by this item will be measured by the square toot of surface area of concrete... 433.5 Payment The work performed as prescribed by this item will be paid for at the unit price bid per square foot 16r "Concrete Driveways ", which price shall be full compensation for preparing the subgrade; for furnishing and placing all materials, including cushion, all reinforcing steel and expansion joint materials and for any other materials, manipulations. -labor, tools, equipment and incidentals necessary to complete the work, Payment will be made under: Pay Item No. 433: Type ii Concrete Driveways — Per Square Foot. End 433 04/17/86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 436.1 Description This item shall consist of concrete valley gutters, composed of Portland Cement concrete, constructed as herein specified on an approved subgrade in conformity to the Tines, grades and details indicated or as established by the Engineer. 436.2 Materials • (1) Concrete Concrete shall be Class A conforming to Item No 403, "Concrete for Structures'. (2) Reinforcing Steel Reinforcing steel and welded wire fabric shall conform to Item No. 406.." Steel". (3) - Expansion Joint Materials Expansion joint materials shall conform to Item No. 408, "Expansion Joint Materials ". (4) Membrane Curing Compound Membrane curing compound shall conform to Item No. 409, "Membrane Curing" 436.3 Construction Methods All forms and forming, placement of reinforcement, placement of concrete, form removal. finishing and curing shall conform to Item No 410, "Concrete Structures ". Where stabilized subbase is not provided. the subgrade shall be excavated as required, all unstable or otherwise objectionable material removed and all holes, ruts and depressions filled with approved material. Rolling shall be performed when and to the extent directed and the roadbed shall be completed to the plane of the typical sec- tions indicated and the lines andior grades established by the Engineer. All work shall conform to Item No. 201, "Subgrade Preparation. Forms shall be of metal or well- seasoned wood not less than 2 inches nominal thickness, of a section satisfactory to the Engi- neer; clean, straight, free from warp and of a depth equal to the thickness of the finished work. All forms shall be securely staked to line and grade and maintained in a true position during the depositing of concrete. Before concrete is placed, forms shall be thoroughly oiled with a light form oil. If the subgrade is dry the area shall be sprinkled lightly immediately before the concrete is placed. Expansion joint material %a inch thick shall be provided as indicated or as directed by the Engineer. The expansion joint material shall be placed vertically and shall extend the full depth of the concrete. Dummy joints shall be provided on 10 foot centers or as directed by the Engineer. Normal dimensions of the dummy groove shall be '/< inch wide and 3 /a inch deep. Reinforcement for concrete valley gutters shall conform to the details indicated or as directed by the Engineer. Care shall be exercised to keep the reinforcement in its proper position during the depositing of concrete. Concrete shall be placed in the forms and spaded, tamped or vibrated until thoroughly compacted and until it entirely covers the surface and has a monolithic finish, The top surface shall be screeded and floated to a uniform smooth surface, then finished with a wood float to a gritty texture. The outer edges shall be rounded with approved tools to a 'A inch radius. At the proper time after finishing, the surface shall be protected by a membrane - curing compound or by wetting cotton or burlap mats. Either method shall be subject to approval by the Engineer. Traffic shall be securely barricaded from using the concrete valley gutter for a minimum of 4 days after initial placing and may be opened to traffic only with the approval of the Engineer. Unless otherwise specified, all necessary excavation, filling and grading of the subgrade will be considered incidental work per. laining to this item, and will not be paid for directly. 436.4 Measurement Item No. 436 Conetete Vaitey Gutters Accepted work performed as prescribed by this item will be measured by the square fool of surface area of concrete placed. The ) square foot will include the reinforced monolithic curb placed at the ends of the valley gutter. Page 1 04/17/86 436 436.5 Payment The work performed as prescribed by this item will be paid for at the unit price bid per square foot for "Concrete Valley Gutters ", which price shall be full compensation for preparing the subgrade; for lumishing and placing all materialS,.including reinforcing steel and expansion joint materials and for any other materials, manipulations, tabor, tools, equipment, barricading and inciden- tals necessary to complete the work. Payment will be made under: Pay Item No. 436: Concrete Valley Gutters — Per Square Foot. End 436 04/17)86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 503.1 Description This item shall consist of the furnishing and installation of frames, grates. rings and covers for inlets, manholes and other struc- tures indicated. 503.2 Materials (1) Welded Steel • • Welded steel grates and frames shall conform to the number, size, dimensions and details indicated and shall be welded into an assembly in accordance with those details. Steel shall conform to the requirements of ASTM A 36. (2), Castings Castings, whether Steel, Gray Cast Iron or Ductile Iron shall conform to the shape and dimensions indicated and shall be clean substantial castings, free from sand or blowholes or other defects. Surfaces of the castings shall be free from burnt on sand and shall be reasonably smooth. Runners, risers. fins and other cast on pieces shall be removed from the castings and such areas ground smooth. Bearing surfaces between manhole rings and covers or grates and frames shall be cast or machined with such precision that uniform bearing shall be provided throughout the perimeter area of contact. Pairs of machined castings shall be matchmarked to facilitate subsequent identifica- tion at installation except that water and wastewater manhole and valve castings shall be fabricated with such draft, tolerances, bolt hole spacing, etc, that all rings and covers of a particular type or class are interchangeable and match - marking will not be required. Steel castings shall conform to ASTM A 27, "Mild to Medium Strength Carbon Steel Castings for General Applica- tion ", Grade 70 -36 shall be furnished unless otherwise specified. Cast iron castings shall conform to ASTM A 48, "Gray Iron Castings ", Class 30. Ductile Iron castings shall conform to ASTM A 536, "Ductile Iron Castings ". Grade 60 -40 -18 shall be used unless otherwise indicated. (3) Rings Adjusting rings shall conform to ASTM A 536, "Gray Iron Castings? Height- adjustment inserts for water and wastewater manhole rings shall be those models listed in Water and Wastewater Standard Products List. (4) Nuts and Bolts Commercial grade galvanized nuts and bolts shall be as indicated. The zinc coating shall be uniform in thickness, smooth and continuous. (5) Mortar End IRO' 403 503 Rev_ 091301187 Item No. 503 Frames, Grates, Rings and Covers Mortar for bedding castings shall consist of 1 part cement and 3 parts sand meeting the requirements of fine aggre- gate Grade No 1, Item No. 403, "Concrete for Structures ". 503.3 Construction Methods Frames, grates, rings and covers shall be constructed of the materials as specified and in accordance with the details indicated and shall be placed carefully to the lines or grades indicated or as directed by the Engineer. All welding shall conform to the requirements of the AWS- D -1 -72. Welded frames, grates, rings and covers shall be given 1 coat of a commercial grade red lead oil paint and 2 coals of commercial grade aluminum paint. All coats shall be a minimum of 1.5 mils, dry. Painting of gray iron castings will not be required. except when used in conjunction with structural steel shapes. 503.4 Measurement and Payment Frames. grdes, nnns ,ind covers will not be measured and payment for furnishing all materials, tools, equipment, labor and in- lo r-<mrplcle the work will be included in the Bid items which constitute the complete structures. Page 1 Frames, Grates, Rings and Covers 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 506.1 Description Item Me.. 506 Manholes This item to govern for construction of manholes and appurtenances complete in place or to the stage detailed on the plans and the materials used therein, including the installation, backfilling and the furnishing and installing of frames, grates, rings, covers and all backfilling. This item to also consist of any pumping, bailing, drainage and Item No. 509, "Trench Safety Systems" for trench walls, when indicated. 506.2 Types The various types of manholes are designated on the plans by letters or by numbers indicating the particular design of each. Each type shall be constructed in accordance with the details indicated and to the depth required by the profiles and schedules given. 506.3 Materials (1) Concrete (3) All concrete shall conform to Item No. 403, "Concrete for Structures ". Cast in place concrete shall be Class A, precast concrete shall be Class I and concrete for trench backfill shall be Class J or Class A as indicated. (2) Mortar Mortar shall be composed of one part Portland Cement and two parts clean, sharp mortar sand suitably graded for the purpose by conforming in other respects to the provisions of Item No. 403, "Concrete for Structures" for fine aggregate. Hydrated lime or lime putty may be added to the mix, but in no case shall it exceed 10 percent by weight of the total dry mix. Reinforcement Reinforcing steel shall conform to the requirements of Item No. 406, "Reinforcing Steel ". Structural steel shall conform to the requirements of Item No. 720, "Metal for Structures ". (4) Brick Brick shall be of first quality, sound, hard burned, perfectly shaped brick conforming to the requirements of ASTM Designation: C 62 Grade SW or concrete brick meeting the requirements of ASTM Designation: C 55, Grade A. 506 06/08/88 Page 1 Manholes (5) Frames, Grates, Rings and Covers Frames, grates, rings and covers shall conform to the requirements of Item No. 503, "Frames, Grates, Rings and Covers ". (6) Precast Manholes All circular manholes shall be precast concrete conforming to the requirements of ASTM Designation: C 478. Joints for wastewater manholes shall conform to the requirements of ASTM Designation: C 443. Storm water manholes shall have steps inserted in the wall as indicated, meeting the requirements of OSHA. (7) Bulkheads All bulkheads shall meet the requirements of. Item No:•- 507, "Bulkheads ". (8) Drop Manholes All manholes ohall_conform to precast manholes above.and_the drop shall be constructed of the_same material as the sever, pipe. (9) Cast In Place Manholes ._ All cast in place manholes shall be reinforced concrete, constructed of the appropriate materials listed above. (10) Manhole Foundations_ A11 manhole foundations shall be Class A concrete. The use of a precast reinforced concrete base slab may be used when constructed integrally with the base section of the manhole. All manholes shall have a preformed invert. (11) Junction Boxes All junction boxes shall be reinforced precast concrete or cast in place Class A concrete with a preformed invert. 506.4 Construction Methods All structural concrete work shall conform to Item No. 410, "Concrete Structures ". Forms will be required for all interior cast in place concrete walls. Where the nature of the surrounding material is such that it can be trimmed to a smooth vertical face outside forms may be omitted. The construction of manholes for precast concrete pipe sewers shall be done as soon as is practicable after sever lines into or through the manhole or inlet locations are completed. All sewers shall be cut neatly at the inside face of the walls of the manhole or inlet and pointed up with mortar. 506 06/08/88 Page 2 Manholes 1 ,1 1 1 1 1 1 1 1 1 1 i. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Foundations for manholes and inlets on monolithie pipe Severs may be placed monolithic with the sewer or -at the Contractor's option, may be placed-- after the sewer is'constructed. The manholes may be constructed prior to backfilling or if the Contractor so elects, the manhole opening may be covered temporarily with a steel plate facilitate the compaction of backfill for the sewer as a whole. Thereafter, required excavation for the manhole shall be made and the manhole constructed and backfilled as indicated. Manholes for box sewers shall include all manhole steps required in the wall of the sewer when indicated. The, inverts passing out or through the manhole or inlet shall be shaped and routed across the floor of the manhole or inlet as shown on the plans. This shaping may be accomplished by adding shaping mortar or concrete after the base is cast or by placing the required additional'material with the base. All manholes shall be completed as indicated. Backfilling to original ground elevation or to the grade indicated shall be in accordance with the pipe backfill requirements. Precast concrete adjusting rings or one course of brick may be used for the final adjustment of the frame, however the total height of the rings, frame and mortar shall not exceed 2 feet. 506.5 Measurement All manholes satisfactorily completed as indicated will be measured as completed units as indicated, per each. Manholes whose depth exceeds 8 feet shall be measured for extra depth per vertical foot. 506.6 Payment Payment for complete junction box or manhole of the type indicated in place, in accordance with these specifications and measured as prescribed above, will be made at the unit price bid for each "Junction Box ", "Manhole ", "Drop Manhole" or per foot for "Manhole Extension ". Payment will be made under one of the following: Pay Item No. 506 DVV: Drop Manhole, Dia. - Per Each. Pay Item No. 506 8: Manhole Extension, Dia. - Per Vertical Foot. Pay Item No. 506 EVV: Manhole Extension, Dia. - Per Vertical Foot. Pay Item No. 506 J: Junction Box, Ft. x Ft. - Per Each. Pay Item No. 506 JVV: Junction Box, Ft. x Ft. - Per Each. Pay Item No. 506 H: Manhole, 48" Dia. - Per Each. Pay Item No. 506 MVV: Manhole, Dia. - Per Each. Pay Item No. 506 S: Manhole (Special), Dia. - Per Each. Pay Item No. 506 SVW: Manhole (Special), Dia. - Per Each. 506 06/08/88 Page 3 Manholes A "W" after the pay item indicates . the _use for water. A "WW" after the pay itea the use for wastewater. End Ref: 403, 406, 410, 503, 507, 509, 720 506 06/08/88 Page 4 Manholes 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 508.1 Description This item to consist of the construction of miscellaneous Structures and appurtenances complete in place or to the stage detailed indicated and the materials used herein, including the excavation, installation, backfilling, placement of the concrete and when required, the furnishing and installation of frames, grates, rings, covers, safety end treatment and any concrete curb and gutter indicated. 508.2 Types The various types of structures and appurtenances such as inlets, headwalls, energy dissipators, etc., are designated on the plans by letter or by number for the particular design of structure to be constructed in accordance with the details indicated. Unless otherwise indicated, the Contractor may have the option of furnishing cast in place or precast structures. 508.3 Materials (1) (3) (4) Concrete Reinforcement and Steel Item No. 598 Hiscel'laneous Structures and Appurtenances Concrete shall conform to Item No. 403, "Concrete with the following classes: Cast in Place Concrete Precast Concrete (2) Mortar Class A Class N for Structures ", Mortar shall be composed of 1 part Portland Cement and 2 parts clean, sharp mortar sand suitably graded for the purpose by conforming in other respects to the provisions of Item No. 403, "Concrete for Structures" for fine aggregate. Hydrated lime or lime putty may be added to the mix, but in no case shall it exceed 10 percent by weight of the total dry mix. Reinforcing Steel shall conform to Item No. 406, "Reinforcing Steel ". Structural Steel shall conform to Item No. 720, "Metal for Structures ". Frames, Grates, Rings and Covers Frames, grates, rings and covers shall conform to Item No. 503, Miscellaneous Structures 508 06/08/88 Page 1 and Appurtenances "Frames, Grates, Rings and Covers ". (5) Safety End Treatment for Structures (a) Bolts and Nuts All bolts, nuts and associated hardware shall meet the specifications of ASTH A 307. (b) Plates and Angles All plates and similar angles and brackets shall meet the specifications of ASTM A 36. (c) Pipe Runners Pipe Runners shall conform to the requirements of ASTM A53, Grade B. (d) Galvanizing All hardware including nuts, bolts and plates.listed.above - .... shall be galvanized conforming to ASTM A 123 or A 153. (6) Miscellaneous Items Cast iron for supports, steps and inlet units shall conform - to the shape and dimensions indicated. The casting shall be clean and perfect, free from sand or blow holes or other defects. Cast iron castings shall meet the requirements of ASTM A 48, Class 30. Steel for temporary covers when used with Stage Construction shall be adequate for the loads imposed. 508.4 Construction Methods All concrete work shall be performed in accordance with Item No. 410, "Concrete Structures ". Forms will be required for all cast in place concrete walls, except where the nature of the surrounding material is such that it can be trimmed to a smooth vertical face (the outside form for concrete bases). Where cast in place concrete is used in wall construction of storm sewers, the steps shall be cast into the wall when the concrete is placed. The construction inlets shall be done as soon as is practicable after sewer lines into the inlet are complete. All sewers shall be cut neatly at the inside face of the walls of the inlet and pointed up with mortar. Bases for cast in place inlets may be placed prior to or at the Contractor's option after the sewer is constructed. Bases for box sewers shall be cast as an integral part of the sewer. The manholes may be constructed prior to backfilling or if the Contractor so elects, the manhole opening may be covered temporarily with a steel plate to facilitate the compaction of backfill for the sewer as a whole. Miscellaneous Structures 508 06/08/88 Page 2 and Appurtenances 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Thereafter, required excavation for the inlet shall be Ada and the inlet constructed and backfilled. 508.5 Measurement 508.6 Payment (1) Inlets (3) Safety End Treatment The inverts passing out or through an inlet shall be shaped and grouted across the floor of the inlet as indicated. This shaping may be accomplished by adding shaping mortar or concrete after, the base is cast or by placing the required additional material with the base. All miscellaneous structures shall be completed in accordance with the details indicated. Backfilling to original ground elevation shall be in accordance with the provisions of the appropriate items and as directed by the Engineer. All miscellaneous structures and safety end treatments satisfactorily completed as indicated will be measured as completed units per - each. Concrete removed, excavation and backfill, riprap, pipe, headwalls, wingwalls, collars and apron slabs will not be measured under this item but will be considered subsidiary to the other items. Frames, grates, rings, covers, safety end treatment and any concrete curb and gutter indicated will not be measured and paid for but shall be considered subsidiary to one of the pay items set in the bid. Payment for Inlets of the type indicated in place in accordance with these specifications and measured as prescribed above will be made at the unit price bid for each Inlet, of the type specified. (2) Energy Dissipators and Headwalls Payment for special complete structures will be made at the unit price bid per each. Payment for Safety End Treatment, complete in place, will be made at the unit price bid for each unit of the type indicated. Payment will be made under one of the following: Pay Item No. 508 -E: Energy Dissipators, In. Dia. - Per Each. Pay Item No. 508 -8: Headwalls, Type A , 30 In. Dia. Pipe - Per Each. Pay Item No. 508 - J Headwalls, Type A, 24 In. Dia. Pipe - Per Each. Pay Item No. 508 - IA: Inlet, Area - Per Each Pay Item No. 508 -IG: Inlet, Grated - Per Each. Pay Item No. 508 -SET Safety End Treatment, Type Size - Per Each Pay Item No. 508 -I5R: Inlet, Recessed - Per Each. Miscellaneous Structures 508 06/08/88 Page 3 and Appurtenances End Pay Itea No. 508 -I10R: Inlet, Recessed - Per Each. Pay Itea No. 508 -I15R: Inlet, Recessed - Per Each. Pay Itea No. 508 -I20R: Inlet, Recessed - Per Each. Pay Item No. 508 -155: Inlet, Recessed - Per Each. Pay Item No. 508 -I10S: Inlet, Standard - Per Each. Pay Item No. 508 -I15S: Inlet, Standard - Per Each. Pay Item No. 508 -I20S: Inlet, Standard - Per Each. Ref: 403, 406, 410, 503, 720 Miscellaneous Structures 508 06/08/88 Page 4 and Appurtenances 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r . 1 1 1 1 1 1 1 1 1 1 510.1 Description This item shall consist of furnishing all pipe and /or materials'for constructing pipe mains, sewers, laterals, Stubs, inlet leads, service connections and culverts, including all applicable work such as excavating, bedding, jointing, backfilling materials, tests, concrete trench cap, concrete cap and encasement, etc., prescribed under this item in accordance with the provisions of the Edwards Aquifer Protection Ordinance, when applicable and Specification "Cuts in Public Right of Way" for existing streets. The pipe shall be of the sizes, types, class and dimensions indicated or as designated by the Engineer and shall include all joints or connections to new or existing mains, pipes, sewers, manholes, inlets, structures, etc., as may be required to complete the work in accordance with specifications and published standard practices of the trade associations for the material specified and to the lines and grades indicated. This item shall consist of any pumping, bailing, drainage and Item No. 509, "Trench Safety Systems" for trench walls, when indicated. Unless otherwise provided, this item.shall consist of the removal and disposition of trees, stumps and other obstructions, old structures or portions thereof such as house foundations, old sewers, masonry or concrete walls, the plugging of the ends of abandoned piped utilities cut and left in place and the restoration of existing utilities damaged in the process of excavation, cutting and restoration of pavement and base courses, the furnishing and placing of select bedding, backfilling and cement or lime stabilized backfill, the hauling and disposition of surplus materials, bridging of trenches and other provisions for maintenance of traffic or access as indicated. 510.2 Materials Item No. 510 Pipe The Contractor shall submit descriptive information and evidence that the materials and equipment the Contractor proposes for incorporation into the work is of the kind and quality that satisfies the specified functions and quality. Water and Wastewater Standard Products Lists form a part of the Specifications. Should the Contractor elect to use any materials from these lists, they should be completely and clearly identified when submitted. (1) Concrete Concrete shall conform to Item No. 403, "Concrete for Structures ". (2) Coarse Aggregate Coarse aggregate shall conform to Item No. 403, "Concrete for Structures" or one of the following: 510 06/09/88 Page 1 Pipe f 1 (a) Pipe Bedding - Stone. Pi pe bedding stone shall be clean gravel, crushed gravel or crushed limestone, free,of mud, clay, vegetation or other debris, conforming to ASTH C•33 for stone quality. Size gradation shall conform to ASTH C -33 No. 57 or No..67 or the following Table: (b) SIEVE SIZE PERCENT RETAINED BY VEIGHT 1 1/2" _ .. • 0 . _ 1" i r:. 0 -10 : - e. 40 -85 "-SSs,, o,.tr. o *90 -100 - . #8 • -z 95 100 .. ... IFS • Foundation Rock Foundation rock shall be well graded coarse aggregate ranging in size from 2 to 8 inches. . (c) Flexible Base Flexible base shall conform to Item No. 210, "Flexible Base ". (3) Fine Aggregate (a) Concrete and Mortar Sand Fine aggregate shall be Grade 1 and shall conform to Item No. 403, "Concrete for Structures ". (b) Bedding Sand Sand for use as pipe bedding shall be clean, granular and homogeneous material composed mainly of mineral matter, free of mud, silt, clay lumps or clods, vegetation or debris. The material removed by decantation SDHPT Test Method Tex - 406 -A, plus the weight of any clay lumps, shall not exceed 4.5 percent by weight. The average electrical resistance when vater- saturated shall be at least 1,800 ohm /cm by the single probe method, with no single test reading lover than 1,500 ohm /cm. Size gradation of sand for bedding shall be as follows: 510 06/09/88 Page 2 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (4) Soil Cement GRADATION TABLE SIEVE SIZE PERCENT RETAINED ET GENET 1/4" . 0 #60 ` 75 - #100 95 -100 Soil cement bedding shall consist of a mixture of approved soil, cement, eater and approved admixtures. The soil cement mixture shall have a minimum 14 day compressive strength of 120 psi and a maximum shrinkage of 5 percent. The mix design and the results of mix testing, both done by an independent testing laboratory acceptable to the Owner, shall be submitted to the Engineer for approval prior to construction. The eater content shall not.exceed that required to provide a mix that will flow, can be pumped and vill maintain the soil in suspension while being placed. The soil cement bedding shall be placed such that all voids are filled. Soil for the soil cement bedding shall meet the following requirements: a. A minimum of 80 percent by dry weight shall pass a #4 sieve. b. Between 5 percent and 30 percent shall pass a #200 sieve. c. The soil material shall have a plasticity index of 3 or less. d. The maximum size of any clay balls in the soil shall be 1/2 inch. Class C or Class F fly ash may be used as an admixture. The fly ash shall meet the requirements of AST! C 595, C 618 and the supplier's certificate as to the analysis and composition shall be furnished. Batching equipment shall be provided to obtain the proper weights of soil, cement, water and admixture. All measuring devices shall be sensitive to a 2 percent variation above or below the actual veights required. The mixers used for mixing the soil cement bedding shall be designed and operated so that the soil cement discharged from the mixer is uniform in compaction and consistency throughout each batch. 510 06/09/88 Page 3 Pipe (5) Pea Gravel ,Pea gravel bedding shall be clean vashed material, hard and insoluble in water, free of mud, clay, silt, vegetation or other debris. Stone quality shall meet ASTM C 33. Size gradation shall be as follows: SIEVE SIZE PERCENT RETAINED BT WEIGHT 3/4 " ;.. 0 1/2" 0 -25 1/4" 90 -100 (6) Select Backfill or Borrow This material'shall consist of borrow or - suitable material excavated from the trench which has a plasticity index of less than 20, a moisture content which does not exceed 2 percent from optimum as determined in accordance vith SDBPT Test Method Tex -114 -E and free of stones or rocks over 8 inches. All suitable materials from excavation operations not required for backfilling the trench shall be placed in embankments, if applicable. All unsuitable materials should be dried or modified to make them suitable for use, as required. (7) Cement Stabilized Backfill (8) Pipe Vhen indicated or directed by the Engineer, all backfill shall be with cement - stabilized backfill rather than the usual materials. Unless otherwise indicated, cement stabilized backfill material shall consist of a mixture of the dry constituents described for Class J Concrete. The cement and aggregates shall be thoroughly dry mixed vith no eater added to the mixture except as may be directed by the Engineer. General Fire line leads and fire hydrant leads shall be ductile iron. Domestic water services shall not be supplied from fire service leads, unless the domestic and fire connections are on separately valved branches vith an approved backflov prevention device in the fire service branch. All wastewater force mains shall be constructed of ductile iron pipe of the class indicated, Thickness Class 50 minimum. Water pipe in or near structures and in vehicular traffic areas within utility easements on private property shall be Ductile Iron Pipe, Thickness Class 52 vrapped as indicated, except for sizes over 24 inches, Concrete Pressure Pipe, steel cylinder type, conforming to the requirements of AVVA C -301 will be acceptable. 510 06/09/88 Page 4 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 There may be no service connections to Concrete Pressure Pipe installed in these areas. All service tubing (3/4 inch thru 2 \ ,.» in s)_installed in any such private property shall be 150 psi ._annealed seamless type K copper tubing with no sweat or soldered joints. The quality of materials, the process of manufacture and the finished pipe shall'be subject to inspection'and approval by the Engineer at the pipe manufacturing plant and at the project site prior to and during installation. (a) Reserved (b) Iron Pipe Iron pipe shall be ductile iron pipe conforming to the specifications below: - AVVA C -151 For push -on or mechanical joint piple. AVVA C -115 AVVA C -104 For flanged pipe, flanges must be ductile iron (gray iron is not acceptable) Class 125 ANSI B16.1 and must be fabricated and attached to the pipe barrels by the original pipe manufacturer. - All pipe interiors shall be cement - mortar lined and seal coated accordingly; pipe exteriors shall be coated as required by the applicable pipe specification. Except as described above for easements, and where not otherwise indicated, ductile iron pipe shall meet the following minimum physical requirements: Thickness Class 50 Tensile Strength 60,000 psi Yield Strength 42,000 psi 1. Ductile Iron and Gray Iron Fittings Fittings shall be push - on, flanged or mechanical joint as indicated or approved and shall conform to the following specifications: Sizes 4 inch through 12 inch: AVVA C -110 or AVVA C - 153 Sizes larger than 12 inch: AVVA C - 110 510 06/09/88 Page 5 Pipe AVVA C -104: The interior of all fittings shall be cement- mortar lined and coated as per C -104; exterior coating shall be as required by the applicable . .. fitting specification. 1 1 . ea. n ..: u : ..: ?; 2. Joint Materials ----Gaskets for mechanical joints shall conform to ANSI /IOVA A21.11 /C -111. Joining of slipjoint iron pipe shall, without exception, be accomplished with the natural or synthetic rubber gaskets of the manufacturer of that particular pipe being used. A joint. lubricant shall be used and applicable recommendations of the manufacturer shall be followed. 510 06/09/88 Gaskets for flanged joints shall be bonded continuous full face gaskets, of 1/8 inch minimum thickness of natural or synthetic rubber, cloth - reinforced rubber, neoprene or asbestos composition material, preferably of deformed cross section design and shall meet all applicable requirements of ANSI /AVVA A21.11 /C -111 for gaskets. They shall be manufactured by, or satisfy all recommendations of, the manufacturer of the pipe/fittings being used and be fabricated for use with Class 125 ANSI B16.1 flanges. Tee -head bolts, nuts and washers for mechanical joints shall be high strength, low alloy, corrosion resistant steel stock equal to "COR -TEN A" or alloyed ductile iron conforming to ASTM A 536, fabricated in accordance with the ANSI /AVVA A21.11 /C -111. Hex head bolts and nuts shall satisfy the chemical and mechanical requirements of ASTM A 307 Grade B and shall be fabricated in accordance with ASTM B 18.2 with UNC Class 2 rolled threads. Hex bolts, nuts and washers shall be stainless steel or hot -dip zinc or hot -dip aluminum coated. Either hex or tee head bolts, nuts and washers with bonded fluoropolymer corrosion resistant coating may be used where specifically approved. All threaded fasteners shall be marked with a readily visible symbol cast, forged or stamped on each nut and bolt, which will identify the fastener grade /material and the producer and the supplier shall provide adequate literature to facilitate such identification. Painted markings are not acceptable. Page 6 Pipe 1 1 1 1 1 1 1 1 1 . 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 4. Marking . Polyethylene Film Wrap All iron pipe, fittings and accessories shall be wrapped with 8 mil (minimum) polyethylene film conforming to AWWA C -105, with all edges overlapped and taped securely with duct tape to provide a continuous wrap to prevent contact between the piping and the surrounding backfill. Repair all punctures of the polyethylene with duct tape to restore the continuous protective wrap before backfilling. (c) Concrete Each pipe joint shall be marked with the pipe class, manufacturer's identification, year manufactured and "Ductile" or "DI ". 1. General Pipe shall conform to ASTM C 76 for Circular Pipe. Concrete pipe smaller than 12 inches in diameter shall conform to ASTM C 14, Extra Strength. All pipe shall be machine made or cast by a process which will provide uniform placement of the concrete in the form and compaction by mechanical devices which vill assure a dense concrete. Concrete shall be mixed in a central batch plant or other approved batching facility from which the quality and uniformity of the concrete can be assured. Transit mixed concrete will not be acceptable r use in precast pipe. The pipe shall be Class III or the class indicated. Storm sewer pipe shall be of the tongue and groove or 0 -ring joint design. Wastewater pipe shall be of the 0 -ring joint design. 2. Marking Each joint of pipe shall be marked with the pipe class, the date of manufacture, the manufacturer's name or trade mark, diameter of pipe and orientation, if required. Pipe marking shall be waterproof and conform to ASTM C 76. Marking of Life Design shall be included on wastewater pipe. 3. Minimum Age for Shipment Pipe shall be considered ready for shipment when it conforms to the tests specified in ASTH C 76. 510 06/09/88 Page 7 Pipe 4. Joint Materials — Composition When constructing storm sewers, the Contractor shall have the option of making joints with either of the following material's: Bitumen (petroleum plastic content) (Z by weight) a. Mortar Mortar for joints shall meet the requirements set forth below in "Mortar ". b. Cold Applied Preformed Plastic Gaskets Cold Applied Plastic Gaskets shall be suitable for sealing joints of tongue and groove concrete pipe. The gasket sealing the joint shall be produced from blends of refined hydrocarbon resins and plasticizing compounds reinforced with inert mineral filler and shall contain no solvents, irritating fumes or obnoxious odors. The gasket joint sealer shall not depend on oxidizing, evaporating or chemical action for its adhesive or cohesive strength and shall be supplied in extruded rope form of suitable cross section. The size of the plastic gasket joint sealer shall be in accordance with the manufacturer's recommendations and sufficient to obtain squeeze -out around the joint. The gasket joint sealer shall be protected by a suitable removable wrapper that may be removed longitudinally without disturbing the joint sealer to facilitate application. The chemical composition of the gasket joint sealing compound as shipped shall meet the following requirements: Volatile Matter (at 325 F) Tex -506 -C (X by weight) Test Method Typical Analysis ASTM 0 4 50 -70 Ash -inert Mineral Water Tex -526 -C 30 -50 (Z by weight) 2.0 Maximum The gasket joint sealing compound when immersed fox 30 days at ambient room temperature separately 1 percent solution of caustic potash, a mixture of percent hydrochloric acid, a 5 percent solution 510 06/09/88 Page 8 Pipe 1' 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 5. Bends sulfuric acid and a saturated H2S solution shall shoe no visible deterioration. The physical properties of the gasket joint sealing compound as shipped shall meet the following requirements: Test Typical. Analysis Property Method Minimum Maximum Specific Gravity at 77 F ASTM D 71 1.20 1.35 Ductility at 77F (cm) Minimum Tex- 503 -C 5.0 Softening point Penetration: Tex -505 -C 275 F 32 F (300 g) 60 sec Tex -502 -C 75 77 F (150 g) 5 sec Tex -502 -C 50 120 115 F (150 g) 5 sec Tex -502 -C 150 Flashpoint C.O.C. F Tex -504 -C 600 F Fire Point C.O.C. F Tex -504 -C 625 F When constructing wastewater lines, the contractor shall use 0 -ring gasket joints conforming to ASTM C 443. Just before making a joint, the ends of the pipe shall be clean, dry, free of any foreign matter, lumps, blisters, excessive coal -tar coating and grease or oil and shall be vire brushed. The gasket and the inside surface of the bell shall be lubricated with a light film of soft vegetable soap compound to facilitate assembly of the joint. Rubber 0 -ring gaskets shall be stretched uniformly in the joint. No horizontal or vertical angles in the alignment of waste water pipes shall be permitted unless indicated. The spigot shall be centered in the bell, the pipe pushed uniformly home and brought into "' true" alignment. Bedding material shall be placed and tamped against pipe to secure the joint. When horizontal or vertical angles in the alignment of storm sewers are indicated, the bend or angle shall be constructed by cutting on a bias one or both pipes as may be required for the alignment indicated. The pipe cut shall be sufficiently long to allow exposing the reinforcement, which shall be bent, welded and incorporated into the pipe bend and reinforced concrete collar to maintain the structural integrity. The collar shall be 6 inches minimum, reinforced with #4 bars on a 1 foot center both directions. Builder's hardware cloth may be used on the outside of the joint to aid in holding cementing materials in place. Plywood, fiberboard or other materials placed on the inside of the pipe as formwork shall be removed as soon as the joint materials have obtained initial set, after which the inside surface of the pipe joint shall be finished smooth and true to the line and grade 510 06/09/88 Page 9 Pipe 510 established. The Contractor may use prefabricated bends meeting the specification requirements in lieu of field fabricated bends. All bends shall be watertight, have a smooth floe line and be equal or greater in strength to the adjacent pipe. :Horizontal bends in wastewater lines shall be accomplished by use of With the Engineer's •approval, bends may be constructed using beveled radius pipe joints or deflected straight pipe meeting the manufacturer's recommended minimum radius of curvature. 6. Sulfide and Corrosion Control All concrete pipe used for wastewater installations . shall.be protected from sulfide and corrosion damage by using limestone aggregate or wall thickness pipe which meets the 100 year life design. (d) Concrete Steel Cylinder (CSC) Pipe 1. General Requirements The Contractor shall submit to the Engineer for approval along with other required data a tabulated layout schedule with reference to the stationing and grade lines to be used. The manufacturer shall furnish all fittings and special pieces required for closures, bends, branches, manholes, air valves, blovoffs and connections to main line valves and other fittings as indicated. Each pipe length, fitting and special joint shall have plainly marked on the bell end of the pipe, the head condition for which it is designed. In addition, marking will be required to indicate the location of each pipe length or special joint in the line and such markings will be referenced to the layout schedules and drawings and submitted for approval. Hydrostatic testing of concrete steel cylinder fittings during fabrication will not be required. 2. Design and Inspection Where not otherwise indicated, concrete steel cylinder pipe shall be Class 150, designed to withstand a vacuum of not less than 28 feet of eater in addition to other loads. Valve reducers, tees and outlets from a pipe run shall be designed and fabricated so that all stresses are carried by the steel forming the fitting or outlet. 06/09/88 Page 10 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1' 1 1 1 1 1 1 1 1 1 a 1 1 1 1 1 1 1 1 Concrete steel cylinder pipe shall meet one of the following specifications:, AWWA C-301 - Any Size AIWA C-303 - 24 inch maximum size All pipe flanges shall conform to AWWA C -207, requirements for standard steel flanges of pressure classes corresponding to the pipe class. Pipe to be installed in a tunnel or encasement shall be manufactured vith 1 inch thick by 24 inch vide skid bands of mechanically impacted mortar in addition to the normal coating. All concrete steel cylinder fittings shall be constructed of steel plate of adequate strength to withstand both internal pressure and external loading. Rod reinforcing shall not be used to figure the required steel area. The fittings shall have a concrete lining and 1 inch minimum coating of cement mortar, except that centrifugally spun lining need not be reinforced. Hinimum lining thickness shall be 1/2 inch for 16 inch pipe and 3/4 inch for sizes larger than 16 inch pipe. Where it is impractical to place such concrete protection on interior surfaces of small outlets, 2 coats of "Bitumastic Tank Solution" shall be applied. No fitting shall be made by cutting of standard pipe, except that outlets of less than 75 percent_of._the diameter may be placed in a standard pipe. Beveled spigots may be placed on standard pipe. 3. Joint Materials Joints shall be of the rubber gasket type conforming to the applicable standards. The inside and outside recesses betveen the bell and spigot shall be completely filled with Cement Grout in accordance with the pipe manufacturer's recommendations. Grout materials for jointing such pipe, unless otherwise indicated, shall be as described herein. (e) In Place Pipe Rehabilitation 1. In Place Sliplining With or Without Pipe Destruction /Replacement This item shall consist of installing a high density polyethylene pipe by use of a pipe insertion machine, such as Expand -A -Line or approved equal, into an existing line. 510 06/09/88 Page 11 Pipe P 510 a. Material Requirements The polyethylene pipe shall meet the following specifications: ASTM F 714 Plastic. Pipe Institute PE3408 Unless otherwise specified, the Contractor shall furnish the polyethylene pipe in accordance vith the following table: Depth of Cover Expressed in Feet SDR of Pipe 0 - 16 ::.16.1 Functional Requirements 06/09/88 Page 12 17 11 The polyethylene pipe shall be assembled and joined at the site using the thermal butt fusion method. All equipment and procedures shall be in strict compliance with the manufacturer's recommendations. Fusing shall be accomplished by personnel certified as fusion technicians by a manufacturer of polyethylene pipe and /or fusing equipment. The complete joint shall be in true alignment and have a uniform double roll back bead resulting from the use of proper temperature and pressure. The joint shall be allowed adequate cooling time before removal of pressure. Joints shall be smooth on the inside vith a maximum projection of the veld bead of approximately 3/16 inch. The fused joint shall be watertight and shall have a tensile strength equal to that of the pipe. All joints shall be subject to acceptance by the Engineer or his /her representative prior to placement. All defective joints shall be cut out and replaced. Any section of the pipe vith a gash, abrasion, nick or scar greater in depth than 10 percent of the wall thickness, or containing concentrated ridges, discolorization, excessive spot roughness, pitting, variable wall thickness, or any other defect of manufacturing or handling as determined by the Engineer or his /her representative, shall be discarded and removed from the site. Terminal sections of pipe that are joined within the insertion pit shall be connected with a full circle pipe repair clamp with a minimum length of Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 one and one half times the nominal inside pipe diameter, in accordance with Water and Wastewater QPL No. 271. The butt gap between pipe ends shall not exceed 1 /14'of the nominal inside diameter of the pipe. c. Installation Procedure - 'fhe Contractor shall carry out his operations in strict accordance with all OSHA and manufacturer's safety requirements. Particular attention is drawn to those safety requirements involving entering confined spaces and trench safety. The Contractor, when required, shall provide for the flow of eater around the section or sections of pipe designated for rehabilitation including active services in the rehabilitation section. The bypass shall be made by plugging the line at an existing upstream manhole or adjacent system. The pump and bypass lines-shall be of adequate capacity and size to handle the flow. The Contractor shall take all necessary steps to prevent flooding of any private property and shall be liable for damage's incurred by the flooding. New polyethylene pipe shall be inserted immediately behind the boring equipment in accordance with the manufacturer's procedures. The boring machine shall be specifically designed and manufactured by Expand -A -Line or approved equal. The boring machine shall be equipped with all controls necessary to place the pipe on proper line and grade according to the plans. The Contractor shall install all pulleys, rollers, bumpers, alignment control devices and other equipment required to protect existing manholes and to protect the pipe from damage during installation. Lubrication may be used as recommended by the pipe manufacturer. Under no circumstances shall the pipe be stressed beyond its elastic limit. All active service connections shall be identified by video inspection or other means and connected to the new main in accordance with the plan details. Upon commencement, insertion, from manhole to manhole, shall be continuous without interruption except as approved by the Engineer. 510 06/09/88 Page 13 Pipe The installed pipe shall be allowed the manufacturer•s recommended amount of time, but not ' less than 12 hours, to provide for complete shrinkage or relaxation of the pipe prior to any connection of service lines, sealing of the annular space where the pipe enters the manhole; or "backfilling of the insertion pit. Sufficient - - excess length of pipe shall be allowed to provide for this shrinkage. The pipe bedding in the insertion pit shall be either pea gravel or pipe bedding stone. Bedding and backfill shall conform to the specifications contained herein. All street repairs and pavement replacement shall conform to Item No. 500, "Cuts in Public Right of Way ". The relaxed pipe shall be cut so that it projects 4 inches inside of the manhole and any annular space shall be sealed. Sealing shall be with material approved by the Engineer. The sealant shall completely fill the void between the pipe and the manhole wall and shall extend 3 inches beyond the annulus on the inside wall of the manhole. The sealant shall form a smooth transition from the pipe onto the manhole. The complete joint shall be uniform and watertight. A concrete invert shall be poured in place and shaped to form a smooth flow channel through the manhole. 2. Cured Resin Pipe Lining This item shall consist of installing a resin impregnated flexible felt tube by an inversion reconstruction method, such as Insituform or equal, into an existing pipe. Curing shall be accomplished by circulating hot water or other approved method to cure the resin into a hard impermeable pipe lining. Insituform is a patented process installed by licensed installers. a. Material Requirements The fiber felt tube shall be fabricated to a size that when installed will neatly fit the internal circumference of the conduit specified by the Engineer. The minimum length shall be that deemed necessary by the Contractor to effectively span the distance from the inlet to the outlet of the respective manholes unless otherwise specified. The Contractor shall verify the lengths in the field before impregnation. Individual inversion runs can 510 06/09/88 Page 14 Pipe 1 1 1 1 • 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 a 1 1 1 1 1 1 1 1 be made over one_or more manhole sections as determined in the field by the Contractor, subject to approval by the Engineer. Unless otherwise specified, the Contractor shall furnish a general purpose unsaturated polyester resin and catalyst system that meets the finished cured physical strengths listed below: Flexural Stress (ASTM D 790) 4,500 psi Tensile Stress (ASTM D 368) 2,500 psi Modulus of Elasticity (ASTM D 790) 250,000 psi If so directed, the Contractor shall furnish, prior to use of the materials, satisfactory written certification of his compliance with the above standards. b. Installation Procedure The Contractor shall carry out his operations in - strict accordance with all OSHA and manufacturer's safety requirements.. Particular attention is drawn to those safety requirements involving working with scaffolding and entering confined spaces. When required, cleaning and repair of the pipe line shall be performed by City of Austin Water and Wastewater Utility. Inspection of pipe line by the Contractor shall be performed by experienced personnel trained in locating breaks, obstacles and - service connections by closed " circus[ television. The interior of the pipe shall be carefully inspected to determine the location of any conditions which may prevent proper installation into the pipe and these conditions shall be corrected. A video tape and log shall be made by the Contractor and kept for later reference by the Owner. The Contractor, when required, shall provide for the flow of water around the section or sections of pipe designated for rehabilitation including active services in the rehabilitation section. The bypass shall be made by plugging the line at an existing upstream manhole and pumping the flow into a downstream manhole or adjacent system. The pump and bypass lines shall be of adequate capacity and size to handle the flow. The Contractor shall take all necessary steps to prevent flooding of any private property and shall be liable for any damages incurred by the flooding. 510. 06/09/88 Page 15 Pipe 4- 1 0, 0Q4 1 It shall be the responsibility of the City of Austin to clear the lines of obstructions such as solids, dropped joints, protruding service connections or collapsed pipe that will prevent the insertion of Insituform. The Contractor shall designate a location vhere the "'uncured resin in the original containers and the 11 unimpregnated fiber -felt tube shall be vacuum impregnated prior to installation. The Contractor shall alloy the Engineer to inspect the materials II and "vet out" procedure. The quantities of the liquid thermosetting materials shall be per manufacturer's standards to provide the wall thickness specified. Stater for the vork shall- be furnished by the City. Contractor shall use a double -check valve assembly I to prevent backflov in the event of pressure failure. The wet out fiber -felt tube shall be inserted through an existing manhole or other approved access by means of an inversion process and the application of a hydrostatic bead sufficient to fully extend it to the next designated manhole. The impregnated tube material shall be inserted into the vertical inversion standpipe with the impermeable plastic membrane side out. At the lover end of the inversion standpipe, the felt tube shall be turned inside out and attached to the standpipe so that a leakproof seal is created. The inversion head vill be adjusted to be of sufficient height to cause the impregnated tube to invert from manhole to manhole and hold the tube tight to the pipe vall, produce dimples at side connections and flared ends at manholes. The use of a lubricant is recommended and, if used, such lubricant shall be as approved by manufacturer's standards. The manufacturer's standards shall be closely followed during the elevated curing temperature so as not to over stress the felt -fiber and cause damage or failure prior to cure. (If prior approval is ii obtained from the owner, the Contractor may elect to use a Top Inversion. In this method the fiber -felt tube is preinverted to a distance that corresponds to the minimum inversion head and instead of attaching to an elbow at the base of the vertical inversion standpipe, it is attached to a , top ring and the standpipe is formed from the felt tube itself.) • After inversion is completed the Contractor shall supply a suitable heat source and water 510 06/09/88 Page 16 Pipe 11 1 1 1 1 1 1 1 1 1 a 1 1 1 1 1 1 1 recirculation equipment. The equipment shall be capable of delivering hot eater throughout the section by means of a prestrung hose, which has been perforated per manufacturer's recommendations, to uniformly raise the water temperature above the temperature required to effect a cure of the resin. This temperature.shall be determined by the resin /catalyst system' employed. The heat source shall be fitted with suitable monitors to gauge the temperature of the incoming and outgoing eater supply. Another such gauge shall be placed between the impregnated felt tube and the pipe invert at the remote manhole to determine the temperature during cure. (later temperature in the line during the cure period shall not be less than 150 F or more than 200 F as measured at the heat source return line. Initial cure shall be deemed to be completed when inspection of the exposed portions of pipe liner appear to be hard and sound and the remote temperature sensor indicated that an exotherm had occurred. The cure period shall be of a duration recommended by the resin manufacturer, as modified for the manufacturer's process during which time the recirculation of the water and cycling of the head exchanger to maintain the temperature continues. The Contractor shall cool the hardened_ pipe . liner_ to a temperature below 100 F before relieving the static head in the inversion standpipe. Cool -down may be accomplished by the introduction of cool water into the inversion standpipe to replace water being drained from a small hole made in the downstream end. Care shall be taken in the release of the static head so that a vacuum will not be developed that could damage the newly installed pipe liner. The finished pipe liner shall be continuous over the entire length of an inversion run between two manholes and be free from visual defects such as foreign inclusions, dry spots or voids. Any defect which will affect, in the foreseeable future, or warranty period, the integrity or strength of the pipe liner shall be repaired at the Contractor's expense, in a manner specified by the Engineer. 510 06/09/88 Page 17 Pipe (f) Polyethylene Tubing 1. General If, due to broken or.misaligned pipe at a manhole wall, the pipe liner failed to make a tight seal, the Contractor shall apply a seal at that point. The seal shall be of a resin mixture compatible with pipe liner. After the pipe liner has been cured in place, the Contractor shall connect new services or reconnect existing service connections as designated and identified by the proposal. This shall generally be done without excavation, from the. interior of the pipeline by means of a television camera and a cutting tool. The vater- tightness of the pipe liner shall be gauged while curing and under a positive head. To ascertain that there is no leakage, the eater pressure inside the pipe should hold at 6 pounds per square inch for a duration of at least 4 hours testing time. After the work is completed the Contractor will provide the Engineer vith a video tape shoving both the before and after conditions including the restored connections. All polyethylene (PE) plastic tubing shall be high density, high molecular weight plastic tubing, pressure rated at 200 psi working pressure and must bear the National Sanitation Foundation seal of approval for potable water service. When tested for Environmental Stress Cracking, the PE tubing shall not show any loss of pressure in the 6 specimens tested for 3 hours in accordance with the requirements of ASTH D 2737 using the test pressure of 400 psi at 73.4 F. The minimum burst pressure shall be 630 psi at 73.4 F determined in accordance with ASTH D 1599, latest revision. The time of testing of each specimen shall be between 60 and 70 seconds. The tubing shall not fail, balloon, burst or veep as defined in ASTH D 1598, latest revision, when tested in accordance with the Sustained Pressure Test Method of ASTH D 2737 but under the following test conditions: Temperature Time Pressure 73.4 F 1,000 hours 400 psi 100 F 1,000 hours 330 psi 510 06/09/88 Page 18 Pipe 1 1 • 1 1 r 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Markings'. _r Perthanent marking on the tubing shall include the following at intervals of not more than 5 feet: =S X'si ®ski:: :. L :'_a 3. Tube Size Nominal Outside Diameter Wall Thickness Tube Size Average Tolerance Minimum Tolerance (inches) (inches) (inches) (inches) (inches) 3/4 0.875 _._. 0. _ .0 010__...._ 1 1.125 ±0.005 0.125 +0.012 1 1/4 1.375 ±0.005 0.153 +0.015 1 1/2 1.625 ±0.006 0.181 +0.018 2 2.125 ±0.006 0.236 +0.024 (g) Copper Tubing Nominal tubing size. The type of plastic material, i.e., PE 3408. The Standard Dimension Ratio (SDR) and the pressure rating in psi for water at 73.4 F (e.g., SDR -9, 200 psi). ASTH D 2737 designation. The manufacturer's name or trademark, code and seal of approval (NSF mark) of the National Sanitation Foundation. PE tubing shall be standard copper tube size outside diameter, with Standard Dimension Ratio (SDR) of 9. Standard sizes, dimensions and tolerances shall be as follows: All copper service tubing shall be annealed seamless Type K eater -tube rated at 150 psi working pressure. The tubing shall be homogenous throughout and free from cracks, holes, crimping, foreign inclusions or other defects. It shall be uniform in density and other physical properties. Nominal Tube Size Outside Diameter Wall Thickness (inches) (inches) (inches) 1/2 0.625 ±0.0025 0.049 ±0.004 3/4 0.875 .0.003 0.065 .0.0045 1 1.125 ±0.0035 0.065 .0.0045 1 1/4 1.375 ±0.004 0.065 .0.0045 1 1/2 1.625 .0.0045 0.072 ±0.005 2 2.125 ±0.005 0.083 .0.007 510 06/09/88 Page 19 Pipe (h) Service Connection Fittings 1 1 All fittings used in customer service connection - tapping mains, connecting meters, etc. - must be currently listed on the Water and Wastewater Standard Products List or called for in the Standard Installation Details in the Service Connection Guide section of the City of Austin Standards. (i) Brass Goods All brass stops, couplings, bends, connections, nipples and miscellaneous brass pipe fittings and accessories used in meter connections, copper service lines, air release piping 11 assemblies and wherever needed in the water distribution system, shall conform to the Standards, Water and Wastewater Standards product list and ALMA C -800, except as herein modified or supplemented. - Unless otherwise noted, the goods described herein shall be fabricated of standard.Red Brass (Waterworks Brass) consisting of 85 percent copper and 5 percent each of tin, lead and zinc. Exposed threads shall be covered with plastic caps or 1 sheeting to protect the threads. Brass goods of each type and class shall be compatible with 1 other fittings in common usage for similar purposes. Where not otherwise indicated, all such materials shall meet the following requirements: 1 Corporation stop thread (where used) shall conform to Table 1, Figure 1, AWVA C -800, commonly called the Hueller.Thread. Corporation stops with iron pipe threads are also permitted. Iron pipe threads shall conform to ANSI B2, 1 -1969 and Table 9, Figure 9 of AWWA C -800. 1 Copper fittings threads shall conform to Table 2 and 3, Figure 2 and 3 of AWWA C -800 and ANSI B1.1960 with approximate tolerance of Class 2. Flanges shall conform to ANSI B16.1, Class 125 (or Class 250 where so noted), as to dimensions, drillings, etc. Brass pipe shall conform to the weight and dimensions of Table 2 in the Appendix for AWWA C -800. All fittings shall be suitable for use at hydrostatic working pressures up to 150 psi. 510 06/09/88 Page 20 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 . L:7"✓ fi: • .• 510 PVC - Plumbing Pipe 1. General Polyvinyl chloride pipe and fittings shall be Type I, ,Grade 1, schedule 40, 200 psi_conforming to the City of ,Austin plumbing code, CS 270 and PS 21. 06/09/88 Physical Requirements Pipe shall be extruded from 100 percent virgin unplasticized Type 1, Normal Impact Polyvinyl Chloride (PVC) to conform to the following minimum physical properties: Specific Gravity 1.36 -1.40 Tensile Strength at 78 F (PSI) 7,500 Compression Strength (PSI) 9,400 Modulus of Elasticity 410,000 Coefficient of Linear Expansion 6.70K/Cx10 -5 Izod Impact at 78 F (ft. lbs. /in. notch) 0.7 -1.5 Burning Rate Self Extinguishing Heat Distortion at 264 PSI 160 F • 3. Visual Inspection Pipe shall be homogenous throughout and free from visible cracks, holes or foreign materials. Pipe shall be free from blisters, wrinkles and dents. This inspection shall be made on each length of pipe. 4. Dimensions and Tolerance Dimensional measurements of plastic pipe will be made on the outside diameter, wall thickness and out -of- roundness. Pipe not meeting these requirements shall be rejected. Dimensions and tolerances shall be in accordance with Commercial Standard CS 256 -63. 5. Marking and Identification All PVC pipe shall be continuously and permanently marked with the following information: manufacturer's name, pipe size, class or schedule, type of pipe and material. When used for potable water line, the pipe shall bear the seal of the National Sanitation Foundation for potable water pipe. Page 21 Pipe 510 6. PVC Pipe Fittings All fittings shall be of schedule 40 or heavier plasticized polyvinyl chloride. 7. Inspection and Testing of Materials Test certificates from a testing laboratory and /or guarantee by the manufacturer satisfactory to the Engineer shall be furnished for the pipe and fittings to be incorporated in the work. As required by the Engineer, certificates shall be submitted for other materials to be incorporated in the work. These certificates, stating that the materials meet the requirements of the specifications, will be required before permission is given to incorporate such materials in the work. The cost of this inspection and testing will be paid for by the Contractor and shall be included in his price bid for such materials complete in place. Any material brought on the ground for use in the work and deemed by the Engineer as unsuitable or not in conformity with the specifications shall be removed from the site of the work by the Contractor upon receipt of written notice from the Engineer to that effect. 8. Handling of PVC Pipe and Fittings The Contractor is cautioned to exercise care in handling, loading, unloading and storing PVC pipe and fittings. All PVC pipe and fittings will be stored under cover before using and will be transported in a vehicle with a bed long enough to allow the length of pipe to lay flat so as not to be subject to undue bending or concentrated external load at any point. Any section of pipe that has been dented or damaged will be discarded until said section of pipe is cut out and rejoined with a coupling. 9. Threaded Connections On PVC to metal connections, the Contractor shall work the metal connections first. A nonhardening pipe dope such as Permatex #2 or equal shall be used on all threaded PVC to metal joints and light wrench pressure is all that should be used. Vhere threaded PVC connections are required, use threaded PVC adapters into which the pipe may be welded. 06/09/88 Page 22 Pipe 1 1 1 1 • 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r 1 1 1 1 1 1 1 -(k) . Polyvinyl Chloride Water Pipe General : .. . Pipe shall have push -on, rubber gasket joints of the bell and spigot type with thickened integral bells or of the double spigot type with thickened coupling sleeves with rubber gasket joints. The wall thickness of each pipe bell and joint coupling must be greater than the standard pipe barrel thickness. Clearance must be provided in every gasket joint for both lateral pipe deflection and for linear expansion and contraction. Concrete thrust blocking shall be placed behind bends and tees. Unless the granular bedding envelope material is pipe bedding stone, concrete support blocking shall also be placed between the bottom of the fitting and the undisturbed trench bottom. 2. Applicable Specifications Except as modified or supplemented herein, PVC pipe shall meet the following standards: All polyvinyl chloride (PVC) water pipe shall be of the rigid (UNPLASTICIZED) type and must bear the National - Foundation seal of_approval for potable water - pipe.•. Each joint of pipe'shall consist of single ,-continuous extrusion; bells or other components attached by solvent welding are not acceptable. Pipe shall be pressure rated at 200 psi (SDR -14) or 150 psi (SDR-18) as indicated. AWA C -900, SDR 18 or SDR 14 for PVC Pressure Pipe, in 4, 6, 8 and 12 inch nominal sizes, having Cast Iron Pipe size outside diameters. Fittings used with PVC Pressure pipe shall be AWA C -110 or AWVA C -153 cast iron fittings. Standard sizes, dimensions and tolerances shall be as follows: SDR -18 SDR -14 Nominal Outside Diameter Wall Thickness Wall Thickness Size Avg. Tolerance Min. Tolerance Min. Tolerance (inches) (inches) (inches) (inches) (inches) (inches) (inches) 4 4.800 +0.009' 0.267 +0.032 0.343 +0.041 6 6.900 +0.011 0.383 +0.046 0.493 +0.059 8 9.050 +0.015 0.503 +0.060 0.646 +0.078 12 13.200 +0.015 0.733 +0.088 0.943 .0.113 510 06/09/88 Page 23 Pipe All pipe 4 inches and larger must be approved Underwriter's Laboratories for use in buried vater supply and fire protection systems. 3. Haterial Requirements .its�r,c+ All pipe and fittings shall ` be made from clean, virgin, NSF approved, Class 124548 PVC. Clean reworked materials generated from the manufacturer's own production may be used within the current limits of the referenced AVVA C -900. 510 4. Marking Permanent marking on each joint of pipe shall include the folloving at intervals of not more than 5 feet: 2. Joint Material 06/09/88 Nominal pipe size and OD base (e.g., 4 CIPS). Where PVC sever or wastewater pipe is indicated, it - shall conform to ASTH D 3034, Type PSM or ASTH F 679 Type T -1 Wall Polyvinyl Chloride (PVC) sever pipe and fittings. Minimum vall shall be SDR 35. Minimum cell classification shall be 12454 -8. PVC pipe and fitting shall have elastomeric gasket joints conforming to ASTM D 3212; gaskets to ASTH F 477. 3. Pipe Markings Permanent marking on the pipe shall include the following at intervals of not more than 5 feet: Manufacturer's name and /or trademark. Page 24 Pipe 1 1 1 1 1 The type of plastic material (e.g., PVC 12454 -B). 1 The standard Dimension Ratio and the pressure rating in psi 'f" r eater at 73 F (e.g., SDR 18, 150 ,II psi). The AVVA or ASTM designation with vhich the pipe complies (e.g., AWVA C 900). The manufacturer's name or code and the National Sanitation Foundation (NSF) mark.�.�__ (1) Polyvinyl Chloride (PVC) Pipe (Nonpressure) and Fittings 1. General . 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r Nominal pipe size. Minimum cell classification (12454 -B). The legend "Type'PSH SDR 35 PVC Sewer Pipe." ..Designation ASTM'D'3034 or ASTM F 679 Pipe. Fitting Markings Fittings shall be clearly marked as follows: Manufacturer's name or trademark, Nominal size, ' The material designation "PVC ", PSM, and This designation, "Specification 03034 ". (m) Steel Pipe . 1. Standard Weight ASTM A 53, Schedule 40. 2. Extra Heavy Weight Seamless ASTM A 53, Schedule 80. 3. Encasement Pipe Welded or Seamless pipepiles ASTM A -252, Grade 2 4. Fittings Nipples and fillings extra strong Federal Specification WW -N 351 or WW -P 521. 5. Coatings Black or galvanized as indicated. (n) Welded Steel Pipe and Fittings for Water - Pipe 1. General Reference Standards Specification. a. Specifications of the American Water Works Association (AWWA) listed below shall apply to this Section. 510 06/09/88 Page 25 Pipe 510 C -206 Field Welding of Steel Vater Pipe. C -207 Steel Pipe Flanges for Waterworks Services, S izes 4 inches through 144 inches. C -208 Dimensions for Steel Vater Pipe Fittings. C -602 Cement - Mortar Lining of Water Pipelines, 4 inches and larger in Place. 2. Submittals - 3. Job Conditions C -200 Steel Vater Pipe 6 inches and larger. C-205 Cement - Mortar Protective Lining and Coating for Steel Vater Pipe, 4 inches and larger, Shop Applied. a. The internal design pressure of all steel pipe and fittings shall be as indicated. b. The interior of all steel pipe for potable eater, 4 inches and larger, shall be cement- mortar lined. 4. Manufacturing a. Description Pipe shall comply with AVVA C -200. 06/09/88 Page 26 Pipe 1 1 1 1 1 1 1 a. Furnish shop drawings, product data, design calculations and test reports as described below: (1) Certified copies of mill tests confirming the type of materials used in steel plates, mill pipe flanges and bolts and nuts to show compliance with the requirements of the applicable standards. (2) Complete and dimensional working drawings of all pipe layouts. Shop drawings shall include the grade of material, size, wall thickness of _____the_pipe_and fittings, type and location of fittings and the type and limits of the lining and coating systems of the pipe and fittings. (3) Product data to show compliance of all couplings, supports, fittings, coatings and related items. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 b. 5. Fittings 510 06/09/88 a. Welded (1) Circumferential deflection of all pipe in -place shall not exceed 2.0 percent of pipe diameter. (2). Diameter Nominal pipe diameter shall be the inside diameter of lining or pipe barrel, unless otherwise designated in Job Conditions. Wall Thickness (1) Steel pipe wall thickness shall be designed for the internal and external loads specified in this section. The cylinder thickness needed to resist internal pressure shall be based on an allowable stress in the steel equal to 1/2 the minimum yield stress of the material used. Fabricated steel fittings shall be of the same material as pipe and shall comply with AWVA C -208. 6. Flanges a. Flanges shall comply with the requirements of AWVA C -207, Class D or Class E. The class shall be based on operating conditions and mating flanges of valves and equipment. b. Gaskets shall be cloth- inserted rubber, 1/8 inch thick. c. Flanges shall be flat faced with a serrated finish. 7. Pipe Joints a. Lap Joints for Field Welding (1) Lap joints for field welding shall conform to AWVA C -206. This item applies only to pipes 72 inches in diameter and larger. (2) The bell ends shall be formed by pressing on a hydraulic expander or a plug die. After forming, the minimum radius of curvature of the bell end at any point shall not be less than 15 times the thickness of the steel shell. Bell ends shall be formed in a manner to avoid impairment of the physical properties Page 27 Pipe ;,. .:y_. ,bi::.:[ ..17'2 ;i i ,•: +. +. • of the steel shell. Joints shall permit a lap at least 1 1/2 inches when assembled. The longitudinal or spiral weld on the inside of the bell end and the outside of the spigot end on each section of pipe shall be.ground flush vith'the plate surface. The inside edge of • the bell and the outside edge of the spigot shall be scarfed or lightly ground to remove the sharp edges or burrs. Bell and Spigot Joints with 0 -Ring Gasket (1) Bell and spigot joints with rubber gasket shall conform to AVVA C -200. (2) The bell and spigot ends shall be so designed that when the joint is assembled, it will be self- centered and the gasket will be confined to an annuler space in such manner that movement of the pipe or hydrostatic pressure cannot displace it. Compression of the gasket when the joint is completed shall not be dependent upon eater pressure in the pipe and shall be adequate to ensure a watertight seal when subjected to the specified conditions of service. Bell and spigot ends shall be welded on preformed shapes. The bell and spigot ends shall conform to the reviewed shop drawings. 8. Interior and Exterior Protective Surface Coatings_, a. Exterior Surface to be mortar coated shall conform to AVVA C - 205 for shop application and AVVA C -602 for field application. Pipe materials shall be the product of an organization which has had not less than 5 years successful experience manufacturing pipe materials and the design and manufacture of the pipe, including all materials, shall be the product of one company. b. All surfaces except as noted in c and d below shall receive shop application of mortar lining and coating. c. Field Velded Joints. After installation, clean, Line and coat unlined or uncoated ends adjacent to welded field joints, including the weld proper, as specified for pipe adjacent to the weld. d. Machined Surfaces. Shop coat machined surfaces with a rust preventative compound. After jointing surfaces, remaining exposed surfaces shall be coated per a and b above. 510 06/09/88 Page 28 Pipe 1 1, 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 .._ (o ). Corrugated Metal Pipe 1. General Pipe shall be corrugated continuous lock or welded seam helically corrugated pipe. Corrugated metal pipe may be galvanized steel, aluminized steel or aluminum conforming to the following: - Galvanized Steel AASHTO M 218 Aluminized Steel AASHTO M 274 Aluminum AASHTO M 197 Where reference is made herein ^to gage of metal, the reference is to U.S. Standard Gage for uncoated sheets. Tables in AASHTO 11 218 and AASHTO M 274 list thicknesses for coated sheets in inches. The Tables in AASHTO M 197 list thicknesses in inches for clad aluminum sheets. Sampling and testing of metal sheets and coils used for corrugated metal pipe shall be in accordance with SDHPT Test Method Tex - 708 -I. Damaged spelter coating shall be repaired by thoroughly wire brushing the damaged area and removing all loose, cracked or weld- burned spelter coating. The cleaned area shall be painted with a zinc dust -zinc oxide paint conforming to Federal Specifications TT -P 641b. Damaged pipe shall be rejected and removed from the project. Damaged aluminized coating shall be repaired in accordance with the manufacturer's recommendations. The following information shall be clearly marked on each section of pipe: Thickness and corrugations Trade Mark of the manufacturer Specification compliance 2. Fabrication a. Steel Pipe Galvanized or aluminized steel pipe shall be full circle or arch pipe conforming to AASHTO M 36, Type I or Type II as indicated. It may be fabricated with circumferential corrugations, lap joint construction with riveted or spot welded seams or it may be fabricated with helical corrugations with continuous helical lock 510 06/09/88 Page 29 Pipe P seam or ultra high frequency resistance butt - welded II • seams. s. -. ;_c_:czay -. .i • - b. Aluminum Pipe Pipe shall conform to.AASHTO M 196, Type I, circular pipe or Type II, pipe arch as indicated. I It may be fabricated with circumferential corrugations, lap joint construction with riveted or spot welded seams or it 'may. be fabricated vith helical corrugations with a continuous helical lock II seam. Portions of aluminum pipe that are to be in contact II vith high chloride concrete or metal other than aluminum, shall be insulated from these materials by a coating of bituminous material. The coating II applied to the pipe or pipe arch to provide an insulation between the aluminum and other material l i shall extend a minimum distance of 1 foot beyond the area of contact. 1 3. Selection of Gages The pipe diameter, permissible corrugations and required gauges shall be as indicated. • 1 • 1 1 1 1 1 1 1 1 510 06/09/88 Page 30 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 : "c-= Cortugated`S 2 "2/3 inches by 1/2 inch Corrugations . ^ Full Circle Pipe b.- i:: Minimum s .:.Covert, Thickness Top of Pipe to Pipe - ..•Top of 0.064 In. 0.079 In. 0.109 In. 0.138 In. 0.168 In. Diameter Subgrade 16 Gage 14 Gage 12 Gage 10 Gage 8 Gage Inches Maximum:Fill`Height Above Top of Pipe in Feet * 12 12 112 122 157 164 171 15 12 _ - 90 97 125 131 137 18 12 75 81 104 109 114 21 12 64 70 82 94 98 2 12 56 60 69 78 86 27 12 50 54 60 67 73 30 12 49 51 55 59 65 33 12 41 44 52 55 59 36 12 37 41 49 52 55 4 2 12 41 45(57) 46(90) 49(94) 50(98) 48 12 - 43(50) 44(78) 46(82) 47(86) 54 12 - 43 43(70) 44(73) 45(76) -60 12 - - 43(63) 43(66) 44(69) 66 12 - - 43(60) 43(62) 72 12 - - - 43(55) 43(57) 78 12 - - 42(53) 84 12 - - - 42(49) * Fill heights in ( ) apply when pipe is 5 percent vertically elongated prior to installation. Note: Thickness in inches, as shown above, refers to the coated metal after galvanizing. 510 06/09/88 Page 31 Pipe The line:;in the gage columns is drawn below the maximum diameter alloved,.for that gage. Table II Corrugated Steel 3 inches x 1 inch or5- inches x 1 inch' Full Circle -Pipe Minimum Cover, Thickness Top of Pipe to Pipe Top of 0.064 In. 0.079 In. 0.109 In. 0.138 In. 0.168 In. Diameter Subgrade 16 Gage 14 Gage 12 Gage 10 Gage 8 Gage • Inches Maximum Fill Height Above Top of Pipe in Feet * 48 12 48 52(60) 56(89) 61(107) 60(118) 54 12 43 48(53) 52(79) 55(95) 58(105) 60 12 38 46(48) 49(71) 51(85) 53(95) 66 12 35 43 47(65) 48(78) 50(86) 72 12 32 40 45(59) 47(71) 48(79) 78 12 29 36 44(54) 45(66) 46(73) 84 12 - 34 43(51) 44(61) 45(68) 90 12 - 32 43 44(57) 44(63) 96 12 - 30 43 43(53) 44(59) 102 24 - 28 42 43(50) 43(56) 108 24 - - 39 42 43(53) 114 24 - - 37 42 42(50) 120 24 - 35 42 42 * Fill heights in ( ) apply when pipe is 5 percent vertically elongated prior to installation. Note: Thickness in inches, as shown above, refers to the coated metal after galvanizing. The line in the gage columns is drawn below the maximum diameter allowed for that gage. 510 06/09/88 Page 32 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 510 Table,Ill - •Corrugated Aluminum =:2 2/3 1/2 1 neb ° C o rrugations Full Circle Pipe Minimum "Cover, - .Thickness Top of Pipe to Pipe - Top of 0.060 In. 0.075 In. 0.105 In. 0.135 In. 0.164 In. Diameter Subgrade'16 Gage ' 14 Gage 12 Gage 10 Gage 8 Gage _Inches Maximum Fill Height Above Top of Pipe in Feet * 12 12 45 45 77 - - 15 12 36 37 56 - 18 12 28 30 36 43 49 24 12 22 23 25 28 31 27 12 20 21 23 25 27 30 12 18 18 21 23 24 33 12 16 17 20 21 22 36 12 - 15 19 20 21 42 12 - - 19 19 20 48 15 - - 18 18 19 54 16 _ - 17 18 18 60 16 - - - 16 18 66 18 - 12 15 72 20 - 18 11 78 20 - - 9 - - 84 20 - - - 7 * Fill heights in ( ) apply when pipe is 5 percent vertically elongated prior to installation. Note: Thickness in inches, as shown above, refers to the clad sheet. The line in the gage columns is drawn below the maximum diameter alloyed for that gage. 06/09/88 Page 33 Pipe 510 r . -,.,;- Table IV �,., _. _.. -- ..Corru Aluminum 3 inches x l i or 6 inches x 1 inch Corrugations Full Circle Pipe Minimum * Cover, -•` Top of Pipe to Pipe Top of 0.060 In. 0.075 In. 0.105 In. 0.135 In. 0.164 In. Diameter Subgrade 16 Gage 14 Gage 12 Gage 10 Gage 8 Gage Inches Maximum Fill Height Above Top of Pipe in Peet * 30 12 27 30 35 41 46 36 12 23 24 28 30 34 42 14 21 22 24 26 28 48 16 20 20 22 23 24 54 18 19 19 20 21 22 60 20 18 19 20 20 21 66 22 - 18 19 19 20 72 24 - 17 19 19 19 78 26 18 18 19 84 26 - 15 18 18 90 24 - 16 18 96 24 - - 14 16 102 30 - 14 108 30 - - - 12 114 30 - - - - 10 120 30 - - - 8 * Fill heights in ( ) apply when pipe is 5 percent vertically elongated prior to installation. Note: Thickness in inches, as shown above, refers to the clad sheet. The line in the gage columns is drawn below the maximum diameter alloyed for that gage. 06/09/88 Page 34 Pipe P 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 510 For pipe arch, tthe'design size and permissible .corrugations only will be indicated, since the shape -• and' minimum gage for pipe arch, shall be as designated in Tables, A, 8, C'or D'for the'specified design size and corrugation for metal pipe. Table` e.' ":, -- Steel Pipe Arch 2 2 /3 .Inch by 1/2 Inch Corrugations , , ,, '13-20 Loading Equivalent Hin. Hin. Coated Diameter Design *Span *Rise Cover Gage Thickness Full Cir. Size Inches Inches Inches Required Inches Pipe Inches 1 17 13 12 16 0.064 15 - 2. 21 . 15 12 16 0.064 18 3 28 20 12 16 0.064 24 4 0064 35 24 12 16 . 30 5 42 29 12 14 0.079 36 6 49 33 12 14 7 57 38 0.079 42 8 12 12 0.109 48 64 43 12 12 0.109 54 9 71 47 12 10 0.138 60 * The fill heights for all sizes of pipe arch are limited to a maximum of 7 feet. A tolerance of plus or minus 1 inch or 2 percent of equivalent circular diameter, whichever is greater, will be permissible in span and rise, with all dimensions measured from the inside crests of the corrugations. Table B Steel Pipe Arch 3 Inch by 1 Inch Corrugations 8 -20 Loading Hin. Hin. Coated Diameter nt Design *Span *Rise Cover Gage Thickness Pull Cir. Size Inches Inches Inches Required Inches Pipe Inches 7 53 41 12 12 0.109 48 8 60 46 12 12 0.109 54 9 66 51 12 1 2 0.109 60 10 73 55 12 12 0.109 66 11 81 59 12 12 0.109 72 12 87 63 12 12 0.109 78 13 95 67 12 12 0.109 84 14 103 71 18 12 0.109 90 15 112 75 18 12 0.109 96 16 117 79 18 12 0.109 102 17 128 83 24 12 0.109 108 18 137 87 24 10 0.138 114 19 142 91 24 10 0.138 210 06/09/88 Page 35 Pipe P frO 510 * The fill.heights all sizes of pipe arch are limited to a maximum of).0 A tolerance of plus or minus "i.inch or 2 percent of equivalent circular diameter, whichever is greater, will be permissible in span and rise, with all dimensions measured from the inside crests of the corrugations. C • Steel Pipe Arch 5 Inch by 1 Inch Corrugations 1 -20 Loading Equivalent Min. Min. Coated Diameter Design *Span *Rise Cover Gage Thickness Full Cir. Size Inches Inches Inches Required Inches Pipe Inches 11 81 59 12 12 0.109 72 12 87 63 12 12 0.109 78 13 95 67 12 12 0.109 84 14 103 71 18 12 0.109 90 15 112 75 18 12 0.109 96 16 117 79 18 12 0.109 102 17 128 83 24 10 0.138 108 18 137 87 24 10 0.138 114 19 142 91 24 10 0.138 120 * The fill heights for all sizes of pipe arch are limited to a maximum of 10 feet. A tolerance of plus or minus 1 inch or 2 percent of equivalent circular diameter, whichever is greater, will be permissible in span and rise, with all dimensions measured from the inside crests of the corrugations. Table D Aluminum Pipe Arch 2 2/3 Inch by 1/2 Inch Corrugations 8 -20 Loading Equivalent Min. Min. Coated Diameter Design *Span *Rise Cover Gage Thickness Full Cir. Size Inches Inches Inches Required Inches Pipe Inches 1 17 13 12 16 0.060 15 2 21 15 12 16 0.060 18 3 28 20 12 14 0.075 24 4 35 24 12 14 0.075 30 5 42 29 18 12 0.105 36 6 49 33 18 12 0.105 . 42 7 57 38 18 10 0.135 48 8 64 43 18 10 0.135 54 9 71 47 18 8 0.164 60 06/09/88 Page 36. Pipe P 1 1, 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 * All dimensions are measured from the inside crests of the ' A tolerance of plus'or minus 1 inch or 2 percent of the equivalent circular diameter, whichever is greater will be permissible in span and rise. The fill heights for all sizes of pipe arch are limited to a maximum of 7 feet. 4. Joint Material Except as otherwise indicated, coupling bands and other hardware for galvanized or aluminized steel pipe shall conform to AASHTO M 36 for steel pipe and AASHTO M 196 for aluminum pipe. Field joints for each type of corrugated metal pipe shall maintain pipe alignment during construction and prevent infiltration of soil material during the life of the installation. Coupling bands shall be not more than 3 nominal sheet thicknesses lighter than the thickness of the pipe to be connected and in no case lighter than 0.052 inch for steel or 0.048 inch for aluminum. Coupling bands shall be made of the same base metal and coating (metallic or otherwise) as the pipe. Coupling bands shall lap equally on each of the pipes being connected to form a tightly closed joint after installation. Pipes furnished with circumferential corrugations shall be field jointed with corrugated locking bands. This includes pipe with helical corrugations which has reformed circumferential corrugations on the ends. The locking bands shall securely fit into at least one full circumferential corrugation on each of the pipe ends being coupled. The minimum width of the corrugated locking bands shall be as shown below for the corrugation which corresponds to the end circumferential corrugations on the pipes being joined: 10 1/2 inches vide for 2 2/3 inches x 1/2 inch corrugations. 12 inches vide for 3 inches x 1 inch or 5 inches x 1 inch corrugations. Helical pipe without circumferential end corrugations will be permitted only when it is necessary to join a new pipe to an existing pipe which was installed with no circumferential end corrugations. In this event pipe furnished with helical corrugations at the ends shall be field jointed with either helically corrugated bands or 510 06/09/88 Page 37 Pipe with bands with projections or dimples. The minimum width of helically corrugated bands shall conform to the following: 12 inches vide for pipe diameters up to. and including 72-inches. • 14 inches vide for 1 inch deep helical end corrugations. Bands with projections shall have circumferential rows of projections with one projection for each corrugation. The width of bands with projections shall be not less than the following: 12 inches wide for pipe diameters up to and including 72 inches. The bands shall have 2 circumferential rows of projections. a. Bituminous Coated Bituminous Coated pipe or pipe arch shall be as indicated both as to base metal and fabrication and in addition shall be coated inside and out with a bituminous coating which shall meet the performance requirements set forth herein. The bituminous coating shall be 99.5 percent soluble in carbon bisulphide. The pipe shall be uniformly coated inside and out to a minimum thickness of 0.05 inch, measured on the crests of the corrugations. The bituminous coating shall adhere to the metal tenaciously, shall not chip off in handling and shall protect the pipe from deterioration as evidenced by samples prepared from the coating 510 06/09/88 Page 38 Pipe 1 - 1 1 1 1 16 1/4 inches vide for pipe diameters of 78 inches and greater. The bands shall have 4 circumferential rows of projections. Unless otherwise indicated, all bolts for coupling bands shall be 1/2 inch diameter. Bands 12 inches wide or less will have a minimum of 2 bolts and bands greater than 12 inches wide shall have a minimum of 3 bolts. — - Galvanized bolts may be dip galvanized conforming to AASHTO 14 232, mechanically galvanized to provide the same requirements as AASHTO 14 232 or electrogalvanized per ASTH A 164 Type RS. 5. Additional Coatings or Linings 1 1: 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 510 material successfully meeting the Shock Test and Flow Test in accordance with Test Method Tex- 522 -C. .Paved Invert 1bere a Paved Invert is indicated, the pipe or pipe .arch, in addition to the fully coated treatment described above, shall receive additional bituminous material of the same specification as above, applied to the bottom quarter of the circumference to form a smooth pavement with a minimum thickness of 1/8 inch above the crests of the corrugations. - c. Cement Lined (1) General Except as modified herein, pipe shall conform to AASHTO H 36 for lock seam or welded helically corrugated steel pipe. Pipe shall be of full circle and shall be fabricated with two annular corrugations for purposes of joining pipes together with band couplers. Lock seams shall develop the seam strength as required in Table 3 of AASHTO H 36. Concrete lining shall conform to the following: Composition Concrete for the lining shall be composed of cement, fine aggregate and water that are well mixed and of such consistency as to produce a dense, homogenous, nonsegregated lining. Cement Portland Cement shall conform to AASHTO M 85. Aggregates shall conform to AASHTO M 6 except that the requirements for gradation and uniformity of gradation shall not apply. Mixture The aggregates shall be sized, graded, proportioned and thoroughly mixed with such proportions of cement and eater as will produce a homogenous concrete mixture of such quality that the pipe will conform to the design requirements 06/09/88 Page 39 Pipe 510 06/09/88 indicated. In no case, however, shall the proportions of Portland Cement, blended cement or Portland Cement plus pozzolanic admixture be less than 470 lb /cu. yd of concrete. :.,; Thickness The lining shall have a minimum thickness of 1/8 inch above the crest of the corrugations. Lining Procedures The lining shall be plant applied by a machine traveling through a stationary pipe. The rate of travel of the machine and the rate of concrete placement shall be mechanically regulated so as to produce a homogenous nonsegregated lining throughout. Surface Finish The lining machine shall also mechanically trowel the concrete lining as the unit moves through the pipe. Certification - -Furnish manufacturer's standard certification of compliance upon request of the purchaser. Joints Pipe shall be joined together with coupling bands made from steel sheets to an indicated thickness of 0.064 inch -(12 ga.). Coupling bands shall be formed with two corrugations that are spaced to provide seating in the third corrugation of each pipe end without creating more than 1/2 inch ± annular space between pipe ends when joined together. Bands shall be drawn together by tvo 1/2 inch galvanized bolts through the use of a bar and strap suitably welded to the band. Vhen 0 -ring gaskets are indicated they shall be placed in the first corrugation of each pipe and shall be compressed by Page 40 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 l :tightening the coupling hand: Rubber 0 -ring gaskets shall conform to Section '5.9, ASTH C 361. (2) Causes for Rejection d. Fiber Bonded Pipe shall be subject to rejection on account of failure to conform to any of the indications. Individual sections of pipe may be rejected because of any of the following: Damaged ends, where such damage would prevent making satisfactory joint. Defects that indicate poor workmanship and could not be easily repaired in the field. Severe dents or bends in he metal itself. If concrete lining is broken out pipe may be rejected or at the discretion of the Engineer, repaired in the field in accordance with the manufacturer's recommendation. Hairline cracks or contraction cracks in the concrete lining is to be expected and does not constitute cause for rejection. Where fiber bonded pipe is indicated, the pipe or pipe arch shall be formed from sheets whose base metal shall be as indicated. In addition, the sheets shall have been coated with a layer of fibers, applied in sheet form by pressing them into a molten metallic bonding. If a paved invert is indicated it shall be in accordance with the procedure outlined above. The test for spelter coating above is waived for fiber bonded pipe. 6. Slotted Drain Storm Severs The pipes for the slotted drain and slotted drain outfall shall be helically corrugated, lock seam or welded seam pipe. Materials and fabrication shall be in accordance with the above. The metal thickness shall be a minimum 16 gage. The chimney assemblies shall be constructed of 3/16 inch welded plate or machine formed 14 gage galvanized steel sheets. The height of the chimney required will be as indicated. Metal for the welded plate slot shall meet 510 06/09/88 Page 41 Pipe the requirements of A 36 and the completed plate slot shall be galvanized after fabrication in accordance with ASTM A 123. Weld areas and the heat affected zones where the slot is • welded to the corrugated pipe shall be thoroughly cleaned and painted with a good quality asphalt base snvcu s aluminum paint. 510 (1) General Mortar Mortar shall be composed of 1 part Type I Portland Cement and 2 parts clean, sharp mortar sand suitably graded for the purpose and conforming in other respects to the provisions for fine aggregate of Item No. 403, "Concrete for Structures ". Hydrated lime or lime putty may be added to the mix, but in no case shall it exceed 10 percent by weight of the total dry mix. (p) Vitrified Clay Pipe Vitrified Clay Pipe shall conform to ASTM C 700, extra strength clay pipe. The joint material for vitrified clay pipe shall conform to ASTM C 425 compression joints for vitrified clay bell and spigot pipe. 510.3 Construction Methods The - Contractor shall conduct his work such that a reasonable minimum of disturbance to existing utilities will result. Particular care shall be exercised to avoid the cutting or breakage of all existing utilities. If at any time the Contractor damages the utilities in place through his operations, the Contractor shall immediately notify the owner of the utility to make the necessary repairs. When active wastewater sewer lines are cut in the trenching operations, temporary flumes shall be provided across the trench while open and the lines shall be restored when the backfilling has progressed to the original bedding lines of the sever so cut. The Contractor shall inform utility owners sufficiently in advance of the Contractor's operations to enable such utility owners to reroute, provide temporary detours or to make other adjustments to utility lines in order that the Contractor may proceed with his 06/09/88 Page 42 Pipe P 1 1 1 1 1 1 1 1 1 Prior to commencing this work, all'erosion control and tree protection measures reguired_shall_be -in place- and - all — utilities - - - "',' located and protected as set forth in "General Conditions of Agreement ". Clearing the site shall conform to Item. No. 102, "Clearing and Grubbing ". Maintenance of environmental quality protection shall comply with all requirements of "General Conditions of Agreement" and Item No. 601, "Salvaging and Placing Topsoil ". 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 510 work with a minimum of delay and expense.. The Contractor Shall cooperate with all utility owners concerned in effecting any utility adjustments necessary and shall not hold the City liable for any expense due to delay or additional work because of conflicts arising from existing utilities. The Contractor shall do ail trenching in accordance with the '' '"provisions and the directions of the Engineer as to the amount of trench left unfilled at any time. Ali excavation and backfiiling shall be accomplished as indicated and in compliance with State Statutes. Where excavation for a pipe line is required in an existing City street, a street cut permit is required and control of traffic shall be as indicated in accordance with the Texas Manual on Uniform Traffic Control Devices. Wherever existing utility branch connections, severs, drains, conduits, ducts, pipes or structures present obstructions to the grade and alignment of the pipe, they shall be permanently supported, removed, relocated or reconstructed by the Contractor through cooperation with the owner of the utility, structure or obstruction involved. In those instances where their relocation or reconstruction is impractical, a deviation from line and grade will be ordered by the Engineer and the change shall be made in the manner directed. Adequate temporary support, protection and maintenance of all underground and surface utility structures, drains, sewers and other obstructions encountered in the progress of the work shall be furnished by the Contractor, at his expense and as approved by the Engineer. • where traffic must cross open trenches, the Contractor shall provide suitable bridges. For trenches less than 2 feet in width, sheet steel plates having a minimum thickness of 1/2 inch shall be used. For trenches up to 4 feet in width, sheet steel plates having a minimum thickness of 3/4 inches shall be used. . In all cases, the plates shall overlay the top of the trench a minimum of 18 inches on both sides and secured by asphalt. Adequate provisions shall be made for the floe of sewers, drains and watercourses encountered during construction and any structures which may have been disturbed shall be satisfactorily restored upon completion of work. When rainfall or runoff is occurring or is forecast by the U.S. Weather Service, the Contractor shall not perform or attempt any excavation or other earth moving work in or near the flood plain of any stream or watercourse or on slopes subject to erosion or Brunoff, unless given specific approval by the Engineer. When such conditions delay the work, an extension of time for working day contracts will be allowed in accordance with "General Conditions of Agreement ". 06/09/88 Page 43 Pipe P 510 When the Contractor installs a pipe that crosses under a utility structure or storm sewer and the top of the pipe is within 18 inches of the bottom of the utility structure, the pipe shall be encased as specified in Item No. 505, "Concrete Encasement and Encasement Pipe ", for a distance of at least 1 foot on either side of the ditch line of the utility structure or the storm sever. Unless otherwise specified by the Engineer, concrete encasement will not be required for Ductile Iron or AVVA C -900 PVC pipe. When the Contractor installs a pipe that crosses over a utility structure or storm sever and the top of the utility structure or storm sewer is within 18 inches of the bottom of the pipe, the pipe shall be either Ductile Iron or AVWA C -900 PVC, unless otherwise specified by the Engineer. Where trenches eider than 12 inches cross under existing wastewater lines, the sever lines shall be replaced with one 20 foot joint of Class 50 ductile iron or C -900 SDR -18 PVC pipe centered over the trench. (2) Water Line/New Wastewater Line Separation Installation of new water or wastewater lines shall conform to the 1 following: Where feasible, water and wastewater lines shall be no closer_ to each other than 9 feet between outside diameters in all directions and shall be in separate trenches. If the 9 foot separation cannot be achieved, any portion of a new gravity wastewater line within 9 feet in any direction (between OD's) of a potable water line, shall be in a separate trench and constructed of ductile iron or AVWA C -900 150 psi (minimum) pressure pipe. If the lines are parallel, they shall not be closer than 4 feet horizontally or 2 feet vertically between OD's with the wastewater lower than the eater line. If the lines cross, they may be no closer than 6 inches vertically between OD's with the sewer below the eater line and one standard 20 foot length of D.I. or C -900 150 psi pipe shall be centered at the point of crossing the water line. Unless wastewater manholes and the connection to the sever can be made completely watertight and tested for no leakage, they must be installed so as to provide a minimum of 9 feet of horizontal clearance from an existing or proposed eater line. 06/09/88 Page 44 1 1 1 1 1 1 1 1 All force mains shall be ductile iron pipe, of the class indieated,_ Thickness - Class -50- minimum. " ________11 (3) Utility and Stormsever Crossings 1 1 1 1 1 1 1 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 510 (4) Trench Excavation Underground piped utilities to be constructed in an open cut in accordance with Federal regulations, applicable State Statutes conforming to Item No. 509, "Trench Safety Systems" and with a trench width and depth described below. When pipe is to be constructed in fill above the natural ground, Contractor to 'construct embankment to an elevation not less than one foot above tope of pipe, after which trench is excavated. Required vertical sides shall be sheeted and braced as indicated to maintain the sides of the required vertical excavation throughout the construction period... Adequacy of the design of sheeting and bracing shall be the responsibility of design professional. Contractor shall be responsible for installation as indicated. After the pipe has been laid and the backfill placed and compacted to 12 inches above the top of the pipe, any sheeting, shoring and bracing required may be removed with special care to insure that the pipe is not disturbed. As each piece of sheeting is removed, the space left by its removal must be thoroughly filled and compacted with suitable material and provisions made to prevent the sides of the trench from caving until the backfill has been completed. Any sheeting left in place will not be paid for and shall be considered subsidiary to the pipe item bid. (5) Trench Width Trenches for water and wastewater lines shall have a minimum width of 6 inches and a maximum width of 1 foot on each side beyond the outside surfaces of the pipe bell or coupling. Trenches for Storm Sewers up to 42 inches shall have a width of 1 foot on each side beyond the outside surfaces of the pipe. Pipes more than 42 inches shall have a trench width not to exceed 18 inches on each side beyond the outside surfaces of the pipe. If trench width within the pipe zone exceeds this maximum, the entire pipe zone shall be refilled with approved backfill material, thoroughly compacted to a minimum of 95 percent of maximum density as determined by SDHPT Test Method Tex - 114 - and then re- excavated to the proper grade and dimensions. Excavation along curves and bends shall be so oriented that the trench and pipe are approximately centered on the centerline of the curve, using short lengths of pipe and /or bend fittings if necessary. For all utilities to be constructed in fill above natural ground, the embankment shall first be constructed to an elevation not less than 1 foot above the top of the utility after which excavation for the utility shall be made. (6) Trench Depth and Depth of Cover All pipe and in -line appurtenances shall be laid to the grades indicated. The depth of cover shall be measured from the established finish grade, natural ground surface, subgrade for 06/09/88 Page 45 Pipe 510 staged construction, street or other permanent surface to the top or uppermost projection of the pipe. (a) Where not otherwise indicated, all eater piping shall be laid to the following minimum depths: '1. Water piping installed in undisturbed ground in easements of undeveloped areas which are not within existing or planned streets, roads•or other traffic areas shall be laid with at least 36 inches of cover. 2. Water piping installed in existing streets, roads or other traffic areas shall be laid with at least 48 inches of cover below finish grade. 3. Unless approved by the Engineer, installation of water piping in proposed new streets will not be permitted until paving and drainage plans have been approved and the roadway traffic areas excavated to the specified or standard paving subgrade, with all parkways and sidewalk areas graded according to any applicable provisions of the drainage plans or sloped uniformly from the curb line to the right of way line. Piping and appurtenances installed in such proposed streets shall be laid with at least 36 inches of cover below the actual subgrade. (b) Where not otherwise indicated, all wastewater piping shall be 1 laid to the following minimum depths: 1. Wastewater piping installed in natural ground in .._ easements_or.other- undeveloped areas which are not' - within existing or planned streets, roads or other traffic areas shall be laid with at least 42 inches of cover. 2. Wastewater piping installed in existing streets, roads or other traffic areas shall be laid with at least 66 inches of cover. 3 Wastewater piping installed in such proposed streets II be laid with at least 48 inches of cover below the actual subgrade. (7) Classification of Excavation 1 Excavation will not be considered or paid for as a separate item of work, so excavated material will not be classified as to type or measured as to quantity. Full payment for all excavation required for the construction shall be included in the various unit or lump sum contract prices for the various items of work installed, complete in place. No extra compensation, special 1 treatment or other consideration will be alloyed due to rock, pavement, caving, sheeting and bracing, falling or rising water, 06/09/88 Page 46 Pipe 1 1 1 1 1 1 1 1 1 —� 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 510 working under and in the proxiinity,of trees or any other handicaps to excavation. ~ (8) Devatering Excavation Underground piped utilities shall not be constructed or the pipe laid An the presence of water. All water shall be removed from ' the excavation prior to the pipe placing operation to insure a dry firm granular bed on which to place the underground piped utilities and shall be maintained in such unvatered condition until all concrete and mortar is set. Removal of water may be accomplished by bailing, pumping or by a well - point installation as conditions warrant. In the event that the excavation cannot be devatered to the point where the pipe bedding is free of mud, aseal shall be used in the bottom of the excavation. Such seal shall consist of Class B concrete, conforming to Item No. 403, "Concrete for Structures ", with a minimum depth of 3 inches. (9) Trench Conditions Before attempting to lay pipe, all eater, slush, debris, loose material, etc., encountered in the trench must be pumped or bailed out and the trench must be kept clean and dry while the pipe is laid and backfilled. Where needed, sump pits shall be dug adjoining the trench and pumped as necessary to keep the excavation devatered. Backfilling shall closely follow pipe laying so that no pipe is left exposed and unattended after initial assembly. All open ends, outlets or other openings in the pipe shall be protected from damage and shall be properly plugged and blocked watertight to prevent the entrance of trench water, dirt, etc. The interior of the pipeline shall at all times be kept clean, dry and unobstructed. Where the soil encountered at established footing grade is a quicksand, saturated or unstable material, the following procedure shall be used unless other methods are indicated: All unstable soils shall be removed to a depth of a minimum 2 feet below bottom of piped utility or as required to stabilize the trench foundation. Such excavation shall be carried out for the entire trench width. All unstable soil so removed shall be replaced with a concrete seal, foundation rock or coarse aggregate materials placed across the entire trench width in uniform layers not to exceed 6 inches, loose measure and compacted by mechanical tamping or other means which will provide a stable foundation for the utility. 06/09/88 Page 47 Pipe Forms, sheathing and bracing, pumping, additional excavation and backfill required in unstable trench - conditions shall be subsidiary to pipe bid. (10) Blasting All blasting shall conform to the provisions of "General Conditions of Agreement ". (11) Removing Old Structures When out of service masonry structures or foundations are encountered in the excavation, such obstructions shall be removed for the full width of the trench and to a depth of 1 foot below the bottom of the trench. When abandoned inlets or manholes are encountered and no plan provision is made for adjustment or connection to the new sewers, such manholes and inlets within the construction limits shall be removed completely to a depth 1 foot below the bottom of the trench. In each instance, the bottom of the trench shall be restored to grade by backfilling and compacting by the methods provided above. Where the trench cuts through storm or wastewater sewers which are known to be abandoned, these severs shall be cut flush with the sides of the trench and blocked with a concrete plug in a manner satisfactory to the Engineer. When old structures are encountered, which are not visible from the existing surface and are still in service, they shall be protected and adjusted as required to the finished grade. (12) Lines and Grades Grades, lines and levels shall conform to Section No. 00341, "Grades, Lines and Levels ". Any damage to the above by the Contractor shall be re established at the Contractor's expense. The location of the lines and grades indicated may be changed only by direction of the Engineer and it is understood that the Contractor will be paid on the basis of his unit contract prices bid for such work actually performed and will make no claim for . damages or loss of anticipated profits due to the change of location or grade. The Contractor shall furnish, at his expense, all necessary batter . boards or electronic devices for controlling the work. Batter boards shall be of adequate size material and shall be supported substantially. The boards and all location stakes must be protected from possible damage or change of location. The Contractor shall furnish good, sound twilled lines for use in achieving lines and grades and the necessary plummets and graduated poles. The Contractor shall submit to the Engineer at least 6 copies of any layout plans from the pipe manufacturer for review and approval. The Contractor shall submit the layout plans at least 510 06/09/88 Page 48 Pipe 1 1 1 1 1 1 1 1 1 - - -- - - -- 1" 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 30 days in advance of any acrtial construction of the project. The E y - Engineer will forward all comments of the review to the Contractor for revision. Revisions. shall be made and forwarded to the Engineer for his acceptance. Prior to commencement of the Project, reviewed layout plans will be sent to the Contractor ,marked for construction.. - ' " ' the Contractor's procedures not produce a finished pipe placed to grade and alignment, the pipe shall be removed and relayed and the Contractors procedures modified to the satisfaction of the Engineer. No additional compensation shall be paid for the removal and relaying of pipe required above. (13) Surplus Excavated Materials Excess material or material vhich cannot be made suitable for use in embankments will be declared surplus by the Engineer and shall become the property of the Contractor to dispose of off site at a permitted fill site, without injury to the City or any individual. Such surplus material shall be removed from the vork site promptly following the completion of.the portion of the utility involved. (14) Pipe Bedding Pipe shall be installed in a continuous bedding envelope as required to meet the existing soil and flooding conditions, consisting of sand, pea gravel, soil cement, cement stabilized backfill or pipe bedding stone. The plans and specifications will set forth the pipe bedding requirements for the project. In the absence of plan details or specification provisions, the following bedding shall be used: (a) Welded steel water pipe. Cement stabilized backfill or crushed limestone bedding. (b) Vater pipe except (a) and May be bedded in sand, pea (b) above. gravel or pipe bedding stone, except that in trenches excavated by blasting, pipe must be bedded in pea gravel or pipe bedding stone, subject to limitation below on use of crushed stone. 510 06/09/88 (c) Wastewater pipe up to 15 inches ID. May be bedded in either sand, pea gravel or pipe bedding stone except that in trenches excavated by blasting, pipe must be bedded in peas gravel or Page 49 Pipe :o• '. 510 (d) Wastewater pipe larger than 15 inches ID.. (e) Storm sewers. Crushed stone bedding shall not Water and Wastewater Pipe pipe bedding stone subject 11 to limitation below on use of c rus he d stone. Must be laid.in pipe bedding stone, regardless of excavation method, subject to limitation below on use of crushed stone. 1 All storm severs shall be laid in sand bedding, ' except within the 25 year flood plain and subject to the limitations below. be used for polyethylene tubing. 1 Sand bedding shall not be used in trenches where water is present 1 or where rock has been blasted. Bedding material shall extend for the full width of the trench excavation and from 6 inches below the pipe to the following: 12 inches above the outer parts of the pipe, fillings and accessories. Storm Sewers Minimum of 15 percent of_ the overalI — pipe height. All bracing, struts, etc., installed by the pipe manufacturer (or temporary replacements by the Contractor) shall be kept in place in the pipe, undisturbed, until the trench has been backfilled at least to the top of the pipe. When installing mortar lined and mortar coated steel pipe, all bracing, struts, etc., installed by the pipe manufacturer shall be kept in the pipe, undisturbed until the bedding has been placed and the trench backfill placed. (15) Laying Pipe No pipe shall be installed in the trench until excavation has been completed, the bottom of the trench graded and the trench completed as indicated. Laying of corrugated metal pipes on the prepared foundation shall be started at the outlet end with the separate sections firmly joined together, with outside laps of circumferential joints pointing upstream and with longitudinal laps on the sides. Any metal in joints which is not protected by galvanizing shall be coated with a suitable asphaltum paint. Proper facilities shall be provided for hoisting and lowering the sections of pipe into the trench without damaging the pipe or disturbing the prepared 06/09/88 Page 50 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 510 foundation and the sides of the trench. Any .pipe which is not in alignment or which shows any undue settlement after laying or is damaged, shall be taken up and relaid without extra compensation. Multiple installations of corrugated pipe or arches shall be laid with the centerlines of individual barrels parallel. When not otherwise indicated, clear distances of 2 feet between outer surfaces of adjacent pipes shall be maintained. No debris shall remain in the drainways or drainage structures. All backfill in streets and under structures will be tested by the City and must satisfy the specified density requirements conforming to Section 00344, "Testing Laboratory Services" before final acceptance of or payment for the work. All recommendations of the manufacturer shall be carefully observed during handling and installation of each material. Unless otherwise indicated, all materials shall be delivered to the project by the manufacturer or agent and unloaded as directed by the Contractor. Each piece shall be placed facing the proper direction near to where it will be installed. The interior of all pipe, fittings and other accessories shall be kept free from dirt and foreign matter at all times and stored in a manner that will protect them from damage. Stockpiled materials shall be stacked so as to minimize entrance of foreign matter. The interior of all pipeline components shall be clean, dry and unobstructed when installed. Piping materials shall not be skidded or rolled against other pipe, etc. and under no circumstances shall pipe, fittings or other accessories be dropped or jolted. During handling and placement, materials shall be carefully observed and inspected and any damaged, defective or unsound materials shall be marked, rejected and removed from the job site. Minor damage shall be marked and repaired in a manner satisfactory to the Engineer. Joints which have been placed but not joined, backfilled, etc., shall be protected in a manner satisfactory to the Engineer. (16) Assembling of Pipe Angular spacing of all joints shall meet the manufacturer's recommendations for the pipe and accessories being used. Side outlets shall be rotated so that the operating stems of valves will be vertical when the valves are installed. Pressure pipe shall be laid with bell ends facing the direction of pipe installation. Pipe end bells shall be placed upgrade for all wastewater lines. 06/09/88 Page 51 Pipe Orientation marks, vhen applicable, shall be in their proper position before pipe is seated.- 510 Before joining any pipe, all foreign matter, lumps, blisters, excess coal tar coating, oil or grease shall be removed from the ends of each pipe and the pipe ends shall then be wire brushed and viped clean and dry. Pipe ends shall be kept clean until joints are made. Every precaution shall be taken to prevent foreign material from entering the pipe during installation. No debris, tools, clothing or other materials shall be placed in the pipe. (17) Joints (a) Mortar Pipe ends shall be clean, free of asphalt or other contaminants vhich will inhibit the bond of the mortar to the pipe. The pipe ends shall be moistened immediately prior to placing the mortar in the joint. (b) Cold Applied Preformed Plastic Gaskets The pipe ends shall be clean and the joint material applied to the dry pipe. In cold weather, the joint material shall be heated to facilitate the seal of the joint. (c) 0 -Ring Just before making a joint.,. the ends of the pipe shall be -. clean, dry, free of any foreign matter, lump blisters, excessive coal tar coating and grease or oil and shall be vire brushed. The gasket and the inside surface of the bell shall be lubricated vith a light film of soft vegetable soap compound to facilitate assembly of the joint. The rubber gasket shall be stretched uniformly as it is placed in the spigot groove to insure a uniform volume of rubber around the circumference of the groove. The spigot shall be centered in the bell, the pipe pushed home uniformly and brought into true alignment. Bedding material shall be placed and tamped against pipe to secure the joint. (d) Push -on Joints Just before making a joint, the bell and spigot rings shall be clean and dry. The gasket and the inside surface of the bell shall be lubricated vith a light film of soft vegetable soap compound (Flax Soap) to facilitate telescoping the joints. The rubber gasket if not factory installed shall be stretched uniformly as it is placed in the spigot groove to insure a uniform volume of rubber around the circumference of the groove. The spigot shall be centered in the bell, the pipe pushed home and brought into true alignment. It shall be 06/09/88 Page 52 Pipe P 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 510 secured there with bedding material which is carefully tamped under and on each ,side of the pipe. Care should be taken to prevent dirt or foreign matter from entering the joint space. (e) Bolted Joints All flanged, mechanical or other bolted joints shall be joined with nuts and bolts of high strength, low alloy, corrosion resistant steel, stainless steel or be coated as indicated above in Iron Pipe. (f) Solvent Veld - For plumbing pipe. (18) Pressure Pipe Laying (a) Grout for Concrete Steel Cylinder Pipe (CSC) and Welded Steel Pipe Aggregate, cement, etc., shall be as indicated in "Mortar" herein. Grout shall be poured into the recess between the bell and spigot on the outside of the pipe and contained by a joint wrapper ( "diaper ") recommended by the pipe manufacturer. The wrapper shall have a minimum width of 7 inches for 30 inch and smaller and 9 inches for larger pipe, secured to the pipe by "Band Iron" steel straps. The grout shall be poured in one continuous operation in such manner that after shrinkage and curing the joint recess will be completely filled. Mortar for the inside recess shall be of the consistency of plaster. The inside recess between the bell and spigot shall be filled with mortar after the pipe joint on either side of the recess has been backfilled and well tamped with no less than one pipe joint installed ahead of the pipe forming the recess. The mortar shall completely fill the recess and shall be trowelled and packed into place and finished off — smooth with the inside of the pipe. The Contractor shall inspect the joint after the mortar has set and make repairs of any pockets, cracks or other defects caused by shrinkage to the satisfaction of the Engineer. The inside surface shall be cleared of any mortar droppings, cement, eater, slurry, etc., before they have become set and shall be cleared of any other foreign matter. The inside surface of the pipe shall be left clean and smooth. Pipe shall be handled at all times with vide nonabrassive slings, belts or other equipment designed to prevent damage to the coating and all such equipment shall be kept in such repair that its continued use is not injurious to the coating. The use of tongs, bare pinch -bars, chain slings, rope slings without canvas covers, canvas or composition belt 06/09/88 Page 53 Pipe P slings with protruding rivets, pipe hooks without proper padding or any other handling equipment which the Engineer deems to be injurious to the coating shall not be permitted. The spacing of pipe supports required to handle the pipe shall be adequate to prevent cracking or damage to the cement mortar lining. (19) Placing Pipe in Tunnels Piping installed as a carrier pipe in a tunnel, encasement pipe, etc., shall have uniform alignment, grade, bearing and conform to the reviewed shop drawings. All necessary skid blocks, rails, bedding material, grout cradle or paving, bracing, blocking, etc., as stipulated by the Contract or as may be required to provide and maintain the required pipe alignment and grade, shall be provided by the Contractor at no cost except as provided by the Bid Items. This shall include at least 1 scree -type hold down jack per joint of pipe to prevent flotation of the pipe, unless otherwise indicated. Such carrier piping shall have flexible bolted or gasketed push -on joints or Concrete Steel Cylinder pipe installed as follows: (a) 21 Inch Pipe and Smaller Prior to placing the pipe in the tunnel, the inside joint recess at the bell shall be buttered with cement mortar. After the joint is engaged, the excess mortar shall be smoothed by pulling a tight fitting swab through the joint. - The pipe joints shall then be welded rigid by placing 3 segments of veld, having a minimum length of 9 inches each and equally spaced around the joint. Cement mortar protection shall then be placed in the normal manner to the exterior of the joint and allowed to harden sufficiently to avoid dislodgement during installation. If time is of the essence, a quick setting compound may be used. (b) 24 Inch Pipe and Larger Each length of pipe shall be pushed into the tunnel as single units. A flexible mastic sealer shall be applied to the exterior of the joint prior to joint engagement. The surfaces receiving the mastic sealer shall be cleaned and primed in accordance with the manufacturer's recommendation. Sufficient quantities of the mastic sealer shall be applied to assure complete protection of all steel in the joint area. The interior of the joint shall be filled with cement mortar in the normal manner after the pipe is in its final position within the tunnel. 510 06/09/88 Page 54 Pipe P 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (20) Temporary Pipe Plugs, Caps, Bulkheads and Trench Caps 1-=47.4 "-' " Temporary plugs, caps o r p 1 - close all openings of thep pe f and pipeline lled to construotion is not in progress. : . i:.k.i3 a , o ,�_, 1 ,._,._ S tandard plugs shall be.inserted - into the bells of all dead ends of pipes,.tees or crosses and spigot ends shall be capped. All end plugs or caps shall be secured to the pipe as provided under Item No. 507, "Bulkheads ". 510 Trench caps shall be reinforced Class D concrete as indicated. (21) Corrosion Control (a) Protective Covering Unless otherwise indicated, all flanges, nuts, bolts, threaded outlets and all other iron or steel components buried and in contact with earth or backfill shall be wrapped with 8 -mil (minimum) polyethylene film meeting ANSI /AVTJA C -105 to provide a continuous wrap. (b) Corrosion Monitoring System 1. If indicated the corrosion monitoring system shall be furnished and installed to meet the following requirements: a. Bonds shall be provided between steel cylinders of adjacent pipe sections and all noninsulating joints as necessary to assure electrical continuity except where electrical isolation is required. The joint bonds shall be designed: (1) With sufficient slack to alloy for a total joint displacement of 1/2 inch. (2) Using insulated copper cable metallurgically bonded to adjacent cylinders. All bare copper and steel at the connection shall be insulated by an approved means. b. Intermediate bonds for the prestress wire of embedded cylinder prestressed concrete pipe shall also be provided as required to minimize attenuation. The intermediate bonds shall be in the form of steel straps embedded in the outer surface of the concrete core directly upon which the prestress wire is tightly wound. The size and number of straps shall be designed to provide uniform current distribution to all embedded metallic surfaces of the pipe. 06/09/88 Page 55 Pipe 510 c.:Electrieal isolation in the -- fore of either flexible or rigid insulating fittings as specified herein .shall be provided as required to obtain electrical discontinuity. d. Flexible insulating fittings required shall be ,. ,style 39 insulating couplings as manufactured by Dresser Industries, 41 Fisher Avenue, Bradford, PA 16701 or equal. e. Rigid insulating fittings required shall be insulated with fullface gaskets and combination bolt sleeves and washers for flanges as manufactured by Central Plastics Co., P.O. Box 762, Shawnee, OK 74801 or equal. f. Corrosion test stations shall be installed on the pipeline at: (1) All buried line crossings. (2) The beginning and end of the portions of the pipeline to be monitored. a. Both sides of insulating fittings. b. Intermediate locations along the line, such that the test stations are no more than 1,000 feet apart. For the embedded cylinder prestressed pipe alternative, test stations, with wires originating at the prestress wire at the midpoint of the pipelaying length at the above locations, shall also be provided. g. Test stations shall be of the two -wire type with one of the wire being sized (No. 6 AVG or larger) such that it can be used for bonding. The other wire, for determining pipe -to -soil potentials, shall be No. 12 AVG or larger. Both leads shall be continuous (without splices) and laid with sufficient slack to prevent stress. The leads shall be insulated with 600 -volt rated insulation suitable for direct burial. Prior to backfilling, the insulation shall be inspected for defects. All defects shall be repaired by approved methods. h. Test stations shall be of the flush type (terminal below grade) or the above- surface type, protected as required for permanency. The flush type shall be installed in developed, urban areas (streets, alleys, sideways, etc.) and the above - surface type 06/09/88 Page 56 Pipe P 1 1, 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 - (mounted on a post) shall. installed in Bross- country areas (rangeland, farmland, etc.) Vhere'practicafale, test stations shall be located at or closely adjacent to clearly identifiable topographical features (fence line, road intersection, section line,' -etc.) of the pipeline right of-way. 1. The Contractor shall perform tests as required to determine the following and correct the corrosion- monitoring system to comply with these specifications: 1.. Pipeline electrical continuity. 2. Effectiveness of insulating joints. 3. Test station integrity: 4. Static pipe -to -soil potentials at each test station. 5. Soil resistivity at each test station. j All design, installation and testing shall be consistent with sound corrosion engineering practice. (22) Pipe Anchorage, Support and Protection Pressure pipeline tees, plugs, caps and bends exceeding 22 1/2 degrees; other bends as directed shall be securely anchored by suitable concrete thrust blocking or by approved metal harness. Unless otherwise indicated, on 24 inch or larger piping, all bends greater than 11 1/4 degrees shall be anchored as described herein. Storm sewers on steep grades shall be lugged as indicated. (a) Concrete Thrust Blocking Concrete for use as reaction or thrust blocking shall be Class B conforming to Item No. 403, "Concrete for Structures ". Concrete blocking shall be placed between solid ground and the fitting to be anchored. The area of bearing on the pipe and on the ground shall be as indicated or directed by the Engineer. The blocking shall, unless otherwise indicated, be so placed that the pipe, fittings and joints will be accessible for repair. The trench shall be excavated at least 6 inches outside the outermost projections of the pipe or appurtenance and the trench walls shaped or undercut according to the detail 510 06/09/88 Page 57 Pipe P 510 drawings or as required to provide adequate space and bearing area for the concrete. The pipe and fittings shall be adequately weighted and laterally braced to prevent floating, shifting or straining of the pi ?eline while the concrete is being placed and taking initial set. The Contractor shall be solely responsible for the sufficiency of such restraints. (b) Metal Thrust Restraint Fabricated thrust restraint systems such as those described belov may be approved for use instead of concrete blocking. To obtain approval, the project plans must include sufficient drawings, notes, schedules, etc., to assure that the proposed restraints as installed will be adequate to prevent undesirable movement of the piping components. Such restraint systems may only be used where and as specifically detailed and scheduled on approved project plans. 1. Thrust Harness • A metal thrust harness of tie rods, pipe clamps or lugs', turnbuckles, etc., may be approved. All carbon steel components of such systems, including nuts and washers, shall be hot -dip galvanized; all other members shall be cast ductile iron. After installation, the entire assembly shall be wrapped with 8 mil polyethylene film, overlapped and taped in place with duct tape to form a continuous protective wrap. The number, size and arrangement of rods, lugs, etc., shall be specifically detailed on the approved plans. 2. Restrained Joints Piping or fitting systems utilizing integral mechanically restrained joints may be approved. All components of such systems shall be standard- manufactured products fabricated from cast ductile iron, hot -dip galvanized steel, brass or other corrosion resistant materials and the entire assembly shall be protected with a continuous film wrap as described for 1. above. Location, configuration and description of such products shall be specifically detailed on the plans. (Add -on attachments such as retainer glands, all- thread rods, etc., are not acceptable.) (c) Concrete Encasement, Cradles, Caps and Seals When trench foundation is excessively vet or unstable or installation of water or wastewater pipe will result in less 06/09/88 Page 58 Pipe 1 1 1 1 1 1 1 1 1. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 510 than 30 inches of_cover,'Contractor shall notify Engineer. Engineer may require Contractor to install a concrete seal, cradle,..cap,tencasement or;othet" appropriate action. All coneretecap, etc., shall be continuous and begin and end within 6 inches of pipe joints. Concrete cap, cradle and encasement shall;.conform to City of Austin Standards No. 510-1, 510 -9. and 510 -7 respectively. The pipe shall be well secured to prevent shifting or flotation while the concrete is being placed.- _ (d) Anchorage Bulkheads Concrete bulkheads keyed into the undisturbed earth shall be placed as indicated to support and anchor the pipe and /or backfill against end thrust, slippage on slopes, etc. Concrete material and placement shall be Class A, Item No. 403, "Concrete for Structures ". (e) Trench Caps, Concrete Rip -Rap and Shaped Retards Where called for by the Contract or as directed by the Engineer, concrete trench caps, concrete rip -rap and /or shaped retards shall be placed as detailed by the standard drawings as protection against erosion. Concrete material and placement shall be Class B, Item No. 403, "Concrete for Structures ". (23) Wastewater Connections (a) Connections to Mains 12 Inches and Smaller All branch connections of new main lines shall be made by use of manholes. Service stubs shall be installed as indicated. Minimum grade shall be 1 percent and minimum cover shall be 4 1/2 feet at the curb. Standard plugs shall be installed in the dead end before backfilling. Where a service connection to a main 12 inches or smaller is indicated, a wye, tee or double wye shall be installed. Where a service connection to a main 15 inches or larger is indicated, a field tap may be made with the pipes installed crown to crown. The tap should be made conforming to the pipe manufacturer's recommendations with the Engineer's approval. Where not otherwise indicated, service connections to mains shall be installed at an angle approximately 45 degrees above the horizontal. 06/09/88 Page 59 Pipe 510 (b) Connections to the Existing System Unless otherwise specified by the Engineer, all connections made to existing.mains shall be made at manholes with the crown of the inlet pipe installed at the same elevation as the crown of the existing pipe. Service stubs installed on the existing system shall be installed by use of tapping saddles unless otherwise approved by the Engineer. Extreme care shall be exercised to prevent material from depositing in the existing pipe as the taps are being made. Vhen connections to existing mains are made, a temporary plug approved by the Engineer must be installed downstream in the manhole to prevent eater and debris.from entering the existing system before final acceptance. These plugs shall be removed after the castings are adjusted to finish grade or when final acceptance is given. (24) Vater System Connections The Contractor shall, at his expense, make all necessary ' connections of new piping or accessories to the existing Water system. To minimize any inconvenience from outages, the Contractor shall schedule all such connections in advance and such II schedule must be approved by the Engineer before beginning any work. (a) Shutoffs The City will make all shutoffs on existing water mains where more than one valve is involved. The Contractor . will.be - - - - - required to notify the Engineer's field representative on the job at least 24 hours prior to the desired time for any shutoff. Vhere only one valve will be operated, the Contractor may operate the valve under the immediate supervision of the Engineer's field representative. (b) Vet Connections to Existing Water System The Contractor shall make all vet connections called for by the Contract or required to complete the work. A vet connection shall include draining and cutting into existing piping and connecting a new pipeline or other extension into the existing pressure piping, forming an addition to the water transmission and distribution network. The contract price for wet connections shall be full payment for all necessary shutoffs, excavation, removing plugs and fittings, pumping water to drain the lines, cutting in new fittings, blocking and anchoring piping, bedding and backfilling, placing the lines and service and all site cleanup. 06/09/88 Page 60 Pipe 1 1 1 1 � 1 1 1 1 1 1 1 1 1 1 i t 1 1 1 1 1 No water containing detectable amounts of chlorine may be drained, released or discharged until specific planning and 'appropriate preparations to handle, dilute and dispose of such chlorinated water are approved .in advance by the City and the disposal operations shall be witnessed by an authorized representative from the City. (c)- Pressure Taps,to' Water System The Contractor shall make all pressure taps called for by the Contract Documents or required to complete the vork. A pressure tap shall consist of connecting new piping to the existing water system by drilling into the existing pipe vhile it is carrying water under normal pressure without taking the existing piping out of service. Unless otherwise provided by the Contract, the Contractor shall, at his expense, perform all necessary excavation, furnish and install the tapping sleeve, valve and accessories, provide the tapping machine, drill the tap (unless otherwise indicated) and shall block, anchor and backfill the piping, valve and all accessories, place the new piping in service and perform all site cleanup. Where that the City will make the tap, City forces are not obligated or expected to perform any work except to provide tapping machine and drill the actual hole. If City crews are to make the tap, fiscal arrangements must be made in advance at the Taps Office, 309 West 2nd Street. If a private contractor makes the tap, a W - WV inspector must be present. "Size on size" taps will not be permitted, unless made by use of an approved full circle gasket tapping sleeve. Concrete blocking shall be placed behind and under all tap sleeves 24 hours prior to making the wet tap. (d) Service Connections Tapping of PVC or AC pipe for service connections may be made using either a service clamp or saddle or a tapping sleeve recommended by the manufacturer and approved as satisfactory by the Engineer. Direct tapping vill not be permitted. All service connections shall be installed so that the outlet is at an angle of approximately 45 degrees above horizontal at the main line. Precautions should be taken to ensure that the tapping saddle or sleeve is placed on the pipe straight to prevent any binding or deformation of the PVC pipe. The mounting chain or U -bolt strap must be tight. Tapping shall be performed with a sharp shell type cutter so designed that it will smoothly penetrate heavy walled PVC DR14 and 200 psi AC and will retain and extract the coupon from the pipe. 510 06/09/88 Page 61 Pipe _...,- (25) Backfil.liag (a) General 6 inch bedding under pipe shall be brought to or near optimum moisture content and densified to provide adequate support for pipe. Remainder of bedding shall be brought to or near optimum moisture content and densified immediately after pipe placement as indicated, except when mortar joints are used for jointing storm sewers, no backfill above bedding shall be placed until mortar has cured for at least 6 hours. Special emphasis is placed upon the need for obtaining uniform backfill material and uniform compacted density throughout the bedding and backfill. Extreme care is to be taken to insure proper backfill over the pipe. The maximum lift of backfill shall be determined by the compaction equipment selected and in no case shall it exceed 18 inches, loose measurement. No heavy equipment, which might damage pipe, will be alloyed over the pipe until sufficient cover has been placed and compacted. Testing of the completed bedding and backfill in streets and under and around structures shall meet the specified density requirements to be accepted. All initial testing will be at no expense to the Contractor and shall conform to Section 00344, "Testing Laboratory Services ". (b) General Corrugated Metal Pipe After the corrugated metal pipe structure has been completely assembled on the proper line and grade and headwalls constructed where indicated; selected material free from rocks over 8 in size from excavation or borrow, as approved by the Engineer, shall be placed along both sides of the completed structures equally, in uniform layers not exceeding 6 inches in depth (loose measurement), sprinkled if required and thoroughly compacted between adjacent structures and between the structures and the sides of the trench or for a distance each side of the structures equal to the diameter of the pipe if pipe is laid above the existing ground. Backfill material shall be compacted to the same density requirements as indicated for the adjoining sections of embankment in accordance with the governing specifications thereof. Above the 3/4 point of the structure, the fill shall be placed uniformly on each side of the pipe in layers not to exceed 12 inches, loose measure. Prior to adding each new layer of loose backfill material, until a minimum of 12 inches of cover is obtained over the crown of the pipe, an inspection will be made of the inside periphery of the corrugated metal structure to determine if 510 06/09/88 Page 62 Pipe 1 1 1 i 1 l 1 1 1 1 I, 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 any floating, local or unequal deformation has occurred as a of improper construction methods. (c) Backfill Materials ..The En ineer.ma $ graded ;r ,,. $ y approve any of the following well materials: t...: 510 1. Select trench material 2. Sand 3. Crushed rock cuttings 4. Rock cuttings 5. Foundation Rock 6. Blasted material with fines and rock 7. Cement stabilized material 8. Borrow Within the 100 year flood plain, sand will not be permitted for backfilling. The Engineer shall approve the topsoil for areas to be seeded or sodded. (d) Backfill in Street Right of Way Placement of backfill under pavement structures and within 2 feet of any structures shall be compacted to the required density using any method, type and size of equipment which will give the required compaction without damaging the pipe or bedding. Placement of backfill greater than 2 feet beyond structures in Right of Way shall be conform to (g) below. The depth of layers, prior to compaction, shall depend upon the type of sprinkling and compacting equipment used and the test results thereby obtained. Prior to and in conjunction with the compaction operation, each layer shall be brought to the moisture content necessary to obtain the required density and shall be kept level to insure uniform compaction over the entire layer. Testing for density will be in accordance with Test Method Tex -114 -E and Test Method Tex - 115 -E. Each layer of backfill must provide the density as required herein. Swelling soils (soils with plasticity index of 20 or more) shall be sprinkled as required to provide not less than optimum moisture nor more than 2 percent over optimum moisture content and compacted to the extent necessary to provide not less than 95 percent nor more than 102 percent of the density as determined in accordance with Test Method Tex - 114 -E. Nonswelling soils (soils with plasticity index less than 20) shall be sprinkled as required and compacted to 06/09/88 Page 63 Pipe the extent necessary to provide not less than 95 percent of the density as determined in accordance with Test Method Tex- I14 -E. After each layer of backfill is complete, tests may be made by the Engineer. If the material fails to meet the density indicated, the course shall be reworked as necessary to obtain the indicated compaction and the compaction method shall be altered on subsequent vork obtain indicated density and conform to Section 00344, "Testing Laboratory Services ". At any time, the Engineer may order proof rolling to test the uniformity of compaction of the backfill layers. All irregularities, depressions, weak or soft spots which develop shall be corrected immediately by the Contractor. Should the backfill, due to any reason, lose the required stability, density or finish before the pavement structure is placed, it shall be recompacted and refinished at the sole expense of the Contractor. Excessive loss of moisture in the subgrade shall be prevented by sprinkling, sealing or covering with a subsequent backfill layer or granular material. Excessive loss of moisture shall be construed to exist when the subgrade soil moisture content is more than 4 percent below the optimum of compaction ratio density. Backfill shall be placed from the top of the bedding material to the existing grade, base course, subgrade or as indicated. The remainder of the street backfill shall be Flexible Base, Concrete or Hot Mix Asphalt Concrete as indicated or to replace in kind the surface removed to construct the pipe. (e) Backfill in County Street or State Highway Right of Stay All work within the right of way must meet the requirements of (d) above, as a minimum and shall meet the requirements of the permit issued by the County when their requirements are more stringent. Prior to the start of construction, the Contractor will be responsible for contacting the appropriate SDHPT office or County Commissioner's Precinct Office and for coordinating his activities with the operating procedures in effect for utility cut permits and pavement repair under their jurisdiction. Approval for all completed work in the State or County right of way must be obtained from the appropriate Official prior to final payment by the Owner. (f) Backfill in Railroad Right of Vay All work within the railroad right of way must meet the requirements of (d) above, as a minimum and shall meet the requirements of the permit issued by the Railroad Owner when their requirements are more stringent. Approval for all completed work in the railroad right of way must be obtained from the Railroad prior to final acceptance. 510 06/09/88 Page 64 Pipe l 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 a a 1 1 1 1 1 (g) Backfill in Easements Where not otherwise indicated, Contractor may select whatever methods and procedures may be necessary to restore entire work area to a safe, useful and geologically stable condition . with a-minimum density of 85 'percent or a density superior to that prior to construction: In and near flood plain of all streams and watercourses, under or adjacent to utilities, structures, etc., all backfill shall be compacted to a- density of not less than 95 percent conforming to SDHPT Test Method Tex - 114 -E, unless otherwise directed by Engineer. All soil areas disturbed by construction shall be covered with top soil and seeded conforming to Item No. 604, "Seeding for Erosion Control ". All turf, drainways and drainage structures shall be constructed or replaced to their original condition or better. No debris shall remain in the drainvays or drainage structures. (26) Quality Testing for Installed Pipe (a) Wastewater Pipe Acceptance Testing After construction is complete, Engineer shall determine whether the pipeline is to be tested for infiltration, exfiltration or by the low pressure air test method. Wastewater pipe installed in the City of Austin and its ETJ areas shall be tested for exfiltration or infiltration as described below in "Exfiltration Test" and "Infiltration Test" or by acceptable low pressure air test, as described below. At the conclusion of either test series, the work shall be further tested for pipeline settlement as described below. The Contractor shall be solely responsible for making proper repairs to those elements which do not pass these test requirements. (b) Exfiltration Test The pipeline shall be completely filled with water for its complete length or by sections as determined by the Engineer. If tested for its complete length, the maximum head at any point shall not exceed 25 feet unless otherwise indicated. If tested in sections, the manholes in the test section shall be completely filled with water. After the pipeline has been filled and allowed to stand for 24 hours, the amount of exfiltration shall be calculated. Any amount in excess of 200 gallons per inch of inside pipe diameter per mile per day shall be cause Eor rejection. 510 06/09/88 Page 65 Pipe (c) Infiltration Test When the pipe placed in easements is completed, the upper portion of the ditch backfill shall be removed to a depth of not less than 18 inches below the finished surface and width equal to the original trench width. The trench shall then be 'flooded with water until it is completely saturated and water stands in the ditch a minimum of 12 inches deep. In cases of steep terrain, earthen dikes shall be used to assure that eater will stand over the trench. After it is apparent that the trench is completely saturated, the main shall then be inspected with closed- circuit television for infiltration. Any section of the main or any service stub that indicates excessive infiltration shall be cause for rejection. This procedure shall not be used for pipes installed in areas where the P.I. of the surrounding material is 20 or higher or where the backfill material has a P.I. of 20 or more. (d) Pipeline Settlement Test During the infiltration test or after the exfiltration test, the pipe will be TV inspected for possible settlement. When air testing has been used, water shall be flowed into the pipe to permit meaningful observations. Any pipe settlement which causes excessive ponding of eater in the pipe shall be cause for rejection. - (e) Low Pressure Air Test of Gravity Flow Wastewater Lines (1) General Wastewater lines in sizes for which the. City has testing equipment may, at the discretion of the Engineer, be air tested between manholes. Backfilling to grade shall be completed before the test and all laterals and stubs shall be capped or plugged by the Contractor so as not to allow air losses which could cause an erroneous test result. Hanholes are to be plugged so they are isolated from the pipe and cannot be included in the test. All plugs used to close the sewer for the air test must be capable of resisting the internal pressures and must be securely braced. Place all air testing equipment above ground and alloy no one to enter a manhole or trench where a plugged sever is under pressure. Release all pressure before the plugs are removed. The testing equipment used must include a pressure relief device designed to relieve pressure in the sewer under test at 10 psi or less and must alloy continuous monitoring of the test pressures in order to avoid excessive pressure. Use care to avoid the flooding of the air inlet by infiltrated ground water. (Inject the air at the upper plug if possible.) Use only qualified personnel to conduct the test. 510 06/09/88 Page 66 Pipe 1 1 1 1 1 1 1 1 1 1 • 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 1 1 1 510 (3) Test Procedure (2) Ground Water Since the presence of ground water Will affect the test results, test holes shall be dug to the pipe,zone at intervals of not more than 100 feet and the average ,• =height of ground water above the pipe (if any) shall be ' determined before starting the test. The. Engineer may, at any time, require a calibration check of the instrumentation used. Use a pressure gauge having minimum divisions of 0.10 psi and an accuracy of 0.0625 psi. (One ounce per square inch.) All air used shall pass through a single control panel. Clean the sewer to be tested and remove all debris where indicated. Wet the sewer prior to testing. The average back pressure of any groundwater shall be determined (0.433 psi) for each foot of average water depth (if any) above the sewer. Add air slowly to the section of sewer being tested until the internal air pressure is raised to 4.0 psig greater than the average back pressure of any ground water that may submerge the pipe. After the internal test pressure is reached, allow at least 2 minutes for the air temperature to stabilize, adding only the amount of air required to maintain pressure. After the temperature stabilization period, disconnect the air supply. Determine and record the time in seconds that is required for the internal air pressure to drop from 3.5 psig to 2.5 psig greater than the average back pressure of any ground water that may submerge the pipe. Compare the time recorded with the time required as follows: Pipe Size (Inches)6 8 10 12 15 18 21 24 Time (Minutes) 3 4 5 6 7.5 9 10.5 12 Any drop in pressure, from 3.5 psig to 2.5 psig, in a time less than that required by the above table shall cause for rejection. When the line tested includes more than one size pipe, the minimum time shall be that given for the largest size pipe included. When lines are air tested, manholes are to be tested separately by exfiltration or infiltration. 06/09/88 Page 67 Pipe P 510 (27) Pressure Pipe Hydrostatic Testing After the pipe has been installed and backfilled and all service laterals, fire hydrants and other appurtenances installed and connected, a pressure test, followed by a leakage test, will be conducted by the City. The City vill furnish the pump and gauges for the tests. The Contractor will be present and shall furnish all necessary Assistance for conducting the tests. The specified test pressures vill be based on the elevation of the lovest point of the line or section under test. Before applying the specified test pressure, all air shall be expelled from the pipe. If permanent air vents are not located at all high points, the Contractor shall install corporation cocks at such points. All service laterals and fire hydrant leads, with the hydrant valves closed and nozzle caps open, shall be included in the tests. (a) Pressure Test The entire project or each valved section shall be tested, at a pressure of 200 psi for a sufficient period (approximately 10 minutes) to discover all leaking or defective materials. Repairs shall be made by the Contractor to correct any leaking or defective materials. (b) Pressure Pipe Leakage Test A leakage test will follow the pressure test and be conducted on the entire project or each valved section. The leakage test shall be at 150 psi for at least 1 hour. (1) Allowable Leakage Leakage shall be defined as the quantity of eater that must be supplied into any test section of pipe to maintain the specified leakage test pressure (see above, "Pressure Pipe Leakage Test ") after the air in the pipeline has been expelled and the pipe has been filled vith vater. No pipe installation will be accepted if the leakage exceeds 25 gallons /24 hours /mile of pipe /inch nominal pipe diameter. ( 25 gpd ) (in. - mi.) (28) Service Charges for Testing No charge will be made to the Contractor for the City's test equipment, inspection, etc., when the test results shoe that leakage is within the indicated allowable limits. 06/09/88 Page 68 Pipe 1 1 • 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1' 1 1 1 1 1 1 1 For each test, either for leakage or for pressure, which fails to meet the indicated requirements, 'the City's'flat charge of $50.00 for such tests will be charged to the Contractor and will be deducted from any funds due the Contractor: - ,.(29) Sterilization of Potable Dater Lines The Contractor shall protect all piping materials from contamination during storage, handling and installation. Prior to disinfection, the pipeline interior shall be clean, dry and unobstructed. All dirt, debris, gasket lubricant, etc., shall be washed from the line by swabbing with hypochlorite solution and /or flushing with clean water. The City, at its expense, will supply the test gauges and the concentrated disinfecting material and City personnel will supervise and direct the overall sterilization procedure. The Contractor, at his expense, shall provide all other equipment, supplies and the necessary labor to perform the sterilization under general supervision of the City. 510 (a) Procedure and Dosage All valves shall be arranged to prevent the strong disinfecting dosage from flowing back into the existing eater supply piping. The new pipeline shall then be completely filled with disinfecting solution by feeding the concentrated chlorine and approved water from the existing system uniformly into the new piping in such proportions that every part of the line has minimum concentration of 50 parts per million (50 ppm or 50 mg /liter) available chlorine. Unless otherwise indicated, all quantities called for herein refer to measurements by the testing procedures in the current edition of "Standard Methods ". The chlorine concentration of each step in the sterilization procedure shall be verified by chlorine residual determinations. This disinfecting solution shall be retained in the piping for at — least 24 hours and all valves, hydrants, etc., shall be operated to disinfect all their parts. After this retention period, the water shall contain no less than 25 parts per million chlorine throughout the treated section of the - pipeline. This heavily chlorinated eater shall then be carefully flushed from the line until the chlorine concentration is no higher than the residual generally prevailing in the existing distribution system or approximately one part per million. Proper planning and appropriate preparations to handle, dilute and dispose of this strong chlorine solution without causing injury or damage to the public, the water system or the environment must be approved by the City before flushing of the line may begin and the flushing shall be witnessed by an authorized representative of the City. 06/09/88 Page 69 Pipe 510 (b) Bacteriological Testing After final flushing of the strong disinfecting solution, water samples from the line shall be tested for bacteriological quality by the City and must be found free of coliform_organisms before the pipeline may be placed in service. One test sample shall be dram from the end of the main and additional samples collected at intervals of not more than 1000 feet along the pipeline. , The Contractor, at his expense, shall install sufficient sampling taps at proper locations along the pipeline. Each sampling tap shall consist of a standard corporation cock installed in the line and extended with a copper tubing gooseneck assembly. After samples have been collected, the gooseneck assembly may be removed and retained for future use. Samples for bacteriological analysis shall be collected only from suitable sampling. taps in sterile bottles treated vith sodium thiosulfate. Samples shall not be drawn from hoses, fire hydrants, etc. The City, at its expense, vill furnish the sterile sample bottles and may, at its discretion, collect the test samples with City personnel. If the initial disinfection fails to produce acceptable sample tests, the disinfection procedure shall be repeated (vithout extra compensation) until satisfactory test results have been obtained before the piping may be placed in service. (30) Cleanup and Restoration It shall be the Contractor's responsibility to keep the construction site neat, clean and orderly at all times. Cleanup shall be vigorous and continuous to minimize traffic hazards or obstructions along the streets and to driveways. Trenching, backfill and cleanup shall be coordinated as directed by the City. The Engineer shall regulate the amount of open ditch and may halt additional trenching if cleanup is not adequate to alloy for orderly traffic floe and access. Materials at the site shall be stored in a neat and orderly manner so as not to obstruct pedestrian or vehicular traffic. All damaged material shall be removed from the construction site immediately and disposed of in a proper manner. All surplus excavated materials become the property of the Contractor for disposal at his expense. After trenching, the Contractor shall immediately remove all excavated materials unsuitable for or in excess of, backfill requirements. Immediately following the pipe laying work as it progresses, the Contractor shall backfill, grade and compact all excavations as provided elsewhere and shall immediately clean 06/09/88 Page 70 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 510.4 Measurement up and remove all unused soi 1,- waSte and debris and restore all:, - surfaces and improvements to .a condition :.equal :or - suiierior -to , that before construction began - and..to.an appearance vhieh' :complements the surroundings. The Contractor shall grade and dress the top 6 inches of earth surfaces with soil or other material similar and equal to the surrounding „"fill and smooth.any visible tracks or ruts, replace and -re- establish all damaged or disturbed turf or other vegetation and otherwise make every effort to encourage the return of the entire surface and all improvements to a pleasant appearance and useful condition appropriate and complementary to the surroundings and equal or similar to that before construction began. Pipe will be measured by the linear foot along the centerline of the pipe for the various sizes and classes of pipe in place, in accordance with these specifications, complete and accepted by the Engineer, including excavation and backfill, unless they are included in the bid as a pay item. Where wyes, branches or connections to existing pipe lines are involved, measurement of the new connecting pipe will be made from the intersection of its central axis with the outside surfaces of the pipe into which it connects. Where inlets, headwalls, catch basins, manholes, junction boxes or other structures are included in lines of pipe, that length of pipe tying into the structure wall will be included for measurement but no other portion of the structure length or width will be so included. For multiple pipes, the measured length will be sum of the lengths of the barrels measured as prescribed above. Any concrete seal or mat required shall be measured by the cubic yard of material placed, calculated by the minimum trench width specified times the depth of foundation or mat placed below the pipe bedding. 510.5 Payment Payment for pipe, measured as prescribed above, will be made at the unit price bid per linear foot for the various sizes of pipe, of the materials and class indicated, unless unstable material is encountered or trench excavation and backfill is bid as a separate item. The concrete seal, foundation rock or coarse aggregate shall be paid for at the unit price bid per cubic yard, which shall be full payment for all excavation and removal of unsuitable material and furnishing, placing and compacting the foundation rock, coarse aggregate or other approved material all complete in place. Excavation and backfill, when included as a separate pay item, will be measured by Pay Item No. 510 -E or F. Excavation and backfill, when included as pipe installation will not be measured as such but shall be included in the unit price bid for constructing pipe and measured as pipe complete in place including 510 06/09/88 Page 71 Pipe r —.eitcavation and backfill. As established the'bid, pipe including excavation and backfill may be either (1) payment for any and all depths or .. t. -(2) payment in 2 foot incremental depth. - .:v-Payment for pipe excavation will be included in the Bid to be measured and - -paid by any of the methods of measurement and payment methods indicated °habove or may be measured as "Structural Excavation and Backfill" as s::3 indicated. Payment shall be full compensation, in accordance with the pay items set in the bid, for excavation, furnishing, hauling and placing pipe including lugs and all incidental and subsidiary materials and work; preparing, shaping, dewatering and shoring of trenches; hauling, placing and preparing bedding; for connecting to new or existing systems or structures; for hauling, moving, placing and compacting backfill materials and for all other incidentals necessary to complete the pipe installation as indicated. 510 (1) Pipe When called for in the Bid, pipe shall be paid for at the unit contract price bid per linear foot for the size amid type of pipe s{rettddigd• at the depth specified, complete in place. The bid price per linear foot shall include all clearing, excavation, bedding material, temporary plugs, pumping, caps or bulkheads, to keep the pipe clean and dry, all necessary lugs or braces, pipe coatings, connection to the existing system, disposal of surplus materials, laying of pipe, backfilling and cleanup. Measurement for depth shall be from the existing ground surface or proposed street subgrade, whichever is less, over the centerline of the pipe. Measurement for length shall be the horizontal distance _along the centerline of the pipe as surveyed by the Engineer. Payment will also represent compensation for removal and replacement of pavement, curb, drainage structures, driveways and any other improvements damaged during construction. Concrete blocking for supporting and reinforcing bends and thrust blocks shall be included in the cost for pipe. No separate payment will be made for welded joints or harnessed joints required for thrust restraint which are scheduled or indicated. (2) Concrete Cradles and Seals When called for in the Bid, concrete seals or cradles shall be paid for at the unit contract price bid per linear foot for the size of pipe specified, complete in place. (3) Concrete Retards When called for in the Bid, Concrete Retards shall be paid under Item No. 593, "Concrete Retards ". 06/09/88 Page 12 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r 1 1 1 1 1 1 1, 1 1 (4) Boring, Jacking and Tunneling - When called for in the Bid, boring, jacking and tunneling shall be paid under Item No. 501, "Jacking or Boring" or Item No. 502, "Tunneling ". _ (5) Wet connections to Water Mains Vet connections shall be paid for at the unit price bid per each, complete in place, according to the size of the main that is in service and shall be full compensation for all work required to make the connection and place the pipe in service. Cast iron fittings shall be paid for as a separate item. (6) Fittings Cast iron and ductile iron fittings of the class indicated, furnished in accordance with these specifications will be paid for at the unit price bid per ton, complete in place, according to scheduled weights for mechanical joint fittings furnished, including glands, bolts and gaskets, as published in the following standards: AWVA C -153 for all fittings in 4 inch through 12 inch sizes, regardless of whether AVVA C -110 or AVVA C -153 fittings are furnished or the type of end connections supplied. AVVA C -110 for all fittings larger than 12 inch size. Steel cylinder concrete pipe fittings and welded steel pipe fittings will not be paid for separately. The Contractor shall include these in his bid for pipe. Concrete Trench Cap and Encasement Where the distance between the top of the concrete encasement and the top of the trench cap is less than 36 inches, the concrete cap and encasement will be poured as one unit and paid for under this bid item at the contract price bid per linear foot. When the distance above is greater than 36 inches or when the trench cap is placed separately, the trench cap shall be paid for as a separate item, per linear foot, complete in place. (8) Cement - Stabilized Backfill Cement - stabilized backfill shall be paid for at the unit price bid per linear foot and shall be full payment to the Contractor for furnishing and installing the required material, mixed, placed and cured complete in place. (9) Concrete Encasement When called for in the Bid, Concrete Pipe Encasement shall be paid under Item No. 505, "Concrete Encasement and Encasement Pipe ". 510 06/09/88 Page 73 Pipe P (7) - xis..r (10), Pressure Taps - Pressure taps vill be paid for at the unit price bid, complete in place, according to the size tap made and the size main tapped and shall be full payment for furnishing all necessary materials, making the tap, testing and placing the connection in service. (11) Trench Safety Systems When called for in Bid, Trench Safety Systems will conform to Item No. 509, "Trench Safety Systems ". (12) In -Place Sliplining vith or vithout In -Place Pipe Destruction /Replacement As called for in the corresponding bid items, pipe sliplining with II or without in -place pipe destruction /replacement shall be paid for at the contract price per linear foot for the specified liner and pipe size and type pipe, at all depths, complete in place. Installation of new services, or reconnection of existing services, to the liner will be paid for at the contract price per each for the specified size and type of service, at all depths, complete in place. (13) Cured Resin Pipe Lining When called for in the bid, cured resin pipe lining will be paid for per linear foot, for the size and type of pipe lined, at all depths, complete in place including all equipment set -ups, video inspection and cleaning of existing pipe. Installation of new services or reconnection of existing services to the relined pipe will be paid for per each, for the specified size and type of service, at all depths, complete in place. Payment, when included as a contract pay item, will be made under one of the following: Pay Item No. 510 -A: 12" RCP. Pay Item No. 510 -A: 18" RCP Pay Item No. 510 -A: 24" RCP Pay Item No. 510 -A: 30" RCP Pipe, 12" -Dia. (all Excavation and Backfill Pipe, 18" -Dia. (all Excavation and Backfill Pipe, 24" -Dia. (all Excavation and Backfill Pipe, 30" -Dia. (all Excavation and Backfill depths), including - per Linear Foot. depths), including - per Linear Foot. depths), including - per Linear Foot. depths), including - per Linear Foot. 510 06/09/88 Page 74 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 i i End Pay Item No. 510 -A: 13 "x22" RCAP Pay Item No. 510 -D: Pay Item No. 510 -S: Pipe, 13" x 22 " -Dia. (all depths), including Excavation and Backfill - per Linear Foot. Adjust 10" Water Line to clear 30" Storm Sewer - per Lump Sum. Trench Safety Systems - per Linear Foot. A "W" after the pay item indicates the use for water. A "WW" after the pay item indicates the use for wastewater. Ref: 102, 210, 403, 501, 502, 505, 507, 593, 6011, 604 510 06/09/88 Page 75 Pipe 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 559 Concrete Box culverts 559.1 Description This item to govern the materials used and the constructing, furnishing and placing of concrete box culverts and wing walls on a prepared grade at the location shown and in accordance with the details indicated. Unless otherwise indicated, the Contractor shall have the option of furnishing cast -in- place, precast (formed) or precast (machine made) box culverts. When cast -in -place box culverts are used, they shall conform to the details indicated and the requirements for Item No. 403, "Concrete for Structures " and Item No. 410, "Concrete Structures ". When precast box culverts are used under traffic, the design loads shall consist of the impact load, dead load and live load (HS 20- per AASHTO Standard Specifications for Highway Bridges; design wheel load, 16 Kips) and to the requirements of ASTM C 789 and /or ASTM C 850. This item to also consist of any pumping, bailing, drainage and Item No. 509, "Trench Safety Systems" for trench walls, when indicated. 559.2 Materials (1) Concrete Class A Concrete shall be used for cast -in -place and precast (formed) box culverts conforming to the requirements of Item No. 403, "Concrete Structures" and Item No. 410, "Concrete for Structures ", except that Class M Concrete will be required for direct traffic boxes. Concrete for precast (machine made) boxes shall conform to ASTM C 789 or C 850 and shall have a minimum 28 day compressive strength of 5,000 psi. (2) Reinforcement Reinforcing steel shall conform to Item No. 406, "Reinforcing Steel ". (3) Jointing Material Materials for jointing precast box culverts shall conform to Item No. 510, "Pipe ". (4) Membrane Curing Materials for membrane curing shall conform to Item No. 409, "Membrane Curing ". (5) Admixtures Admixtures shall conform to Item No. 405, "Concrete Admixtures ". 559 06/08/88 Page 1 Concrete Box Culverts Air entraining admixtures shall be added to the mixture to produce concrete with not less than 4 nor more than 7 percent air content by volume. (6) Granular Backfill Materials for Granular Backfill shall conform to Item No. 210, "Flexible Base ". (7) Foundation Rock Foundation Rock shall be well graded, course aggregate ranging in size from 2 to 8 inches and capped with 5/8 inch rock. 559.3 Fabrication Forms for precast (machine made) boxes shall be made of steel. Forms for precast (formed) boxes may be either wood or steel. Forms shall be mortar -tight and of sufficient strength to prevent bulging or misalignment of adjacent boxes. They shall be constructed to permit their removal without damage to the concrete. Offsets at form joints shall not exceed 1/8 inch. Forms shall be clean and free of extraneous matter when concrete is placed. Positive means of supporting steel cages in place throughout forming and concrete placement will be required and subject to the approval of the Engineer. Welding of reinforcing steel will be permitted only where shown on the plans. Welding shall be done by a qualified welder. Precast (machine made) boxes shall be cast by a process which will provide for uniform placement of the concrete in the forms and compaction by mechanical devices which will assure dense concrete. Concrete shall be mixed in a central batch plant or other approved batching facility from which the quality and uniformity of the concrete can be assured. Transit -mixed concrete will not be acceptable for use in precast (machine made) boxes. Curing of precast boxes made in a commercial plant shall be by any one or by a combination of the following methods which are compatible with the joint materials selected or as directed by the Engineer: (1) Steam Curing Boxes will be placed in a curing chamber, free from outside drafts and cured in a Quist atmosphere maintained by the injection of steam for such time and temperature as necessary for proper curing. The curing chamber shall be constructed to allow full circulation of steam around the entire box. Steam outlets shall be positioned so that live steam is not applied directly to the concrete. (2) Water Curing Boxes may be water cured by covering with water saturated cotton 559 06/08/88 Page 2 Concrete Box Culverts 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 ( `:mats, polyethylene sheeting or polyethylene burlap blankets, by a system of perforated pipe or mechanical sprinklers, by porous hose or by other methods that will keep the boxes moist during the curing period. Water for curing shall conform to Item No. 403, " Concrete for Structures ". Membrane Curing Type 1 membrane curing compound may be used for interim curing or for complete curing. All surfaces shall be kept moist prior to the application of the curing compound and shall be damp when the Compound is applied. When used for interim curing, the curing compound shall be applied to the outside surface of the box upon removal of forms. It shall also be applied to the inside surface or a suitable covering may be placed over the box opening to protect the inside of the box against rapid drying. When used for complete curing, curing compound shall be applied to the inside surface of the box when interim curing is applied or when handling strength has been attained, but not later than 24 hours after casting. Curing shall not be delayed longer than 1 hour after the concrete has been placed in the forms or more than 1/2 hour after removal of forms, unless interim curing is applied. Precast boxes made in a commercial plant shall be continuously cured for a period of 3 days after reaching handling strength or until the design strength has been attained. Curing may be interrupted for no more than 30 minutes for form removal and no more than 4 hours for removal to a storage area and resumption of curing. All precast boxes shall be protected from freezing during the curing period. A curing day is a calendar day when the air temperature, taken in the shade away from artificial heat, is above 50 F for at least 19 hours or for colder days if satisfactory provisions are made to maintain the temperature at all surfaces of the concrete above 50 F for the entire 24 hours. Test cylinders shall be cured at the same time and in the same manner as the boxes. Not more than 4 lifting holes may be provided in each box to facilitate handling. They may be cast -in, cut into the fresh concrete after form removal or drilled and shall not be more than 2 inches in diameter or 2 inches square. Cutting or displacement of reinforcement will not be permitted. Spalled areas around the holes shall be repaired. Concrete boxes shall be given an ordinary finish conforming to Item No. 410, "Concrete Structures ". 559 06/08/88 Page 3 Concrete Box Culverts Precast boxes of either type, made in a plant, shall bear the following marking: The name or trademark of the manufacturer; The date of manufacture; When required, elsewhere herein, a match mark for proper installation; and if lifting holes are not provided, one end of each box section shall be clearly marked on the inside and outside walls to indicate the top and /or bottom as it will be installed. Marking shall be indented into the box or may be painted thereon with waterproof paint. 559.4 Testing Precast box culverts made in a commercial plant, shall have a minimum of 4 test cylinders for design strength made for each day's production run of each size and class of box culverts. Strength tests for each production run will be based on the average strength of 2 cylinders which may be tested anytime after completion of the specified curing period. When design strength is attained on the initial test, further tests on that run will not be required. Should the initial test fail to meet the design strength, a subsequent test shall be made at 28 days unless additional test cylinders were made during production of that run. Failure to attain design strength by the 28 day test will result in rejection of the run represented by the test. Tests for handling strength will be based on the average of 2 cylinders. These test cylinders are in addition to those required for design strength. Cylinders for compressive strength tests shall be made in accordance with SDHPT Test Method Tex - 707 -1. Testing of precast (formed) culvert sections or cast -in -place culverts shall conform to Item No. 403, "Concrete for Structures ". 559.5 Fabricating Tolerances Tolerances for precast boxes of either type shall conform to the following: The inside vertical and horizontal dimensions shall not vary from plan requirements more than + 1/2 inch. The horizontal or vertical plane at each end shall nor vary from being perpendicular to the top and bottom by more than 1/2 inch when measured diagonally between opposite interior corners of the end section. The sides of a section at each end shall not vary from being perpendicular to the top and bottom by more than 1/2 inch when measured diagonally between opposite interior corners of the end section. The thickness of walls and slabs shall not be less than that required by the plans, except that an occasional deficiency not greater than 1/4 inch will be acceptable. If proper jointing is not affected, thicknesses in excess of plan requirements are acceptable. 559 06/08/88 Page 4 Concrete Box Culverts 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 The straightness of`the tongue and groove at the eating surface shall not vary • by more than 1/4 inch. Deviations from the above tolerances will be acceptable if the box sections can be fitted at the plant or job site and it is determined that an acceptable joint can be made. For this condition, an acceptable joint is: When 2 box sections are fitted together on a flat surface in proper alignment and in the position they will be installed, the longitudinal opening at any point shall not exceed 1 inch. Box sections accepted in this manner shall be match- marked for installation. - - 559.6 Defects and Repair Fine cracks or checks on the surface of the member which do not extend to the plane of the nearest reinforcement will not be cause for rejection unless they are numerous and extensive. Cracks which extend into the plane of the reinforcing steel, but are acceptable otherwise, shall be repaired in an approved manner. Small damaged or honeycombed areas which are purely surface in nature may be repaired. Excessive damage, honeycomb or cracking will be subject to structural review. Repairs shall be sound, properly finished and cured in conformance with the pertinent specifications. When fine cracks or hairchecks on the surface indicate poor curing practices, further production of precast boxes shall be discontinued until corrections are made and proper curing provided. 559.7 Storage and Shipment Precast boxes shall be stored on level blocking in a manner acceptable to the Engineer. No load shall be placed upon them until design strength is reached and curing completed. Shipment of boxes may be made when the design strength and curing requirements have been met. 559.8 Construction Methods Excavation and backfill shall conform to Item No. 401, "Structural Excavation and Backfill" and Item No 510, "Pipe ", except where tunneling or jacking methods are required or indicated. Precast concrete boxes shall be bedded on a foundation of firm ctable material accurately shaped to conform to their base. When indicated, special bedding materials shall be provided. Unless otherwise indicated, the Contractor may use any of the jointing materials, except rubber gaskets and shall conform to the jointing requirements in Item No. 510, "Pipe ". When precast boxes are used to form multiple barrel structures, they shall be placed in conformance with the details indicated. Materials to be used between barrels shall be as indicated. 559 06/08/88 Page 5 Concrete Box Culverts Connections of precast boxes to cast -in -place boxes or to any required headwalls, wingwalls, riprap or other structures shall conform to the details indicated. Lifting holes shall be filled with mortar or concrete and cured to the satisfaction of the Engineer. 559.9 Measurement End (1) Cast in Place Box Culverts The quantities of concrete of the various classifications which will constitute the completed and accepted "Box Culverts" in place will be measured by the cubic yard, based on the dimensions indicated. (2) Precast Concrete box culverts of each size and type shall be measured by the linear foot. The measurement will be made between the ends of the box along the central axis. For concrete boxes used in multiple barrel structures, the measured length will be the sum of the lengths of all barrels measured as described above. 559.10 Payment The unit price bid, per linear foot for the various sizes and types of precast "Concrete Box Culverts" or the unit price bid, per cubic yard for the various sizes and types of cast in place "Concrete Box Culverts" shall be full compensation for constructing, furnishing and transporting boxes; the preparation and shaping of bed; jointing of boxes; for connections CO existing structures; concrete, reinforcing steel and all other items of material, labor, equipment, tools and incidentals necessary to complete the work in accordance with the plans and specifications, except excavation and backfill, which shall be in accordance with Item No. 401, "Structural Excavation and Backfill". When precast boxes are laid on a skew, full compensation for cutting the ends when required by the plans, shall be included in the unit bid price per linear foot, measured in accordance with "Measurement" above. Payment will be made under one of the following: Item No. 559: Concrete Box Culverts, 7 Ft. x 3 Ft. - Per Linear Foot. Ref: 210, 401, 403, 405, 406, 409, 410, 509, 510 559 06/08/88 Page 6 Concrete Box Culverts 1 1 1 1 1 1 1 1 1 1 1 1 1 1 .1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 591.1 Description This item shall consist of excavation of all materials encountered for placing riprap, disposal'df excess material and backfilling around the completed nprap to the grade indicated. The work shall include all pumping and bailing, furnishing and placing riprap of rock at concrete in accordance with the details and to.the dimensions indicated. 591.2 Materials (1) Rock Item No. 591 Riprap for Slope Protection Rock for nprap shall consist of field rock or rough, unhewn quarry rock as nearly uniform in section as is practicable. The rock shall be dense, resistant to the action of air and water and suitable in all respects for the purpose intended- (2) Broken Concrete The rock used for mortar riprap may consist of broken concrete removed under the contract or obtained from other approved sources. Broken concrete shall be as nearly uniform m section as practicable and of the sizes indicated below. (3) Concrete Cast m place concrete shall be Class A Concrete and shall conform to Item No. 403, "Concrete for Structures ". (4) Grout and Mortar Grout and mortar shall consist of 1 part Portland Cement and 3 parts sand, thoroughly mixed with water. Mortar shall have a consistency such that it can be easily handled and spread by trowel. Grout shall have a consistency such that tt will flow into and completely fill all joints. (5) Reinforcement Reinforcement shall conform to Item No. 406, "Reinforcing Steel ". (6) Joints Premolded expansion joint material shall conform to Item No 408. "Concrete Joint Material ". (7) Tie Backs and Anchors Galvanized tie backs and anchors shall be as indicated. (8) Filter Fabric Filter Fabric shall conform to Item No.,620, "Filter Fabric ". 591.3 Construction Methods Prior to commencing this work, all erosion control and tree protection measures required shall be in place and utilities located and protected as set forth in "General Conditions of Agreement': Construction equipment shall not be operated within the drip tine of trees unless indicated. Construction materials shall not be placed under the canopies of trees. No excavation or embank- ment shall be placed within the drip line of trees until tree wells are constructed. Spills and small stones used to fill open joints and voids in rock riprap shall be rocked and wedged to provide a tight fit. Unsuitable excavated materials or excavation in excess of that needed for construction shall be known as "Waste" and shall become the properly of the Contractor and it shall become his sole responsibility to dispose of this material 011 the limits of the right 01 way In an environmentally sound manner at a permitted disposal site All blasting shall conform to "General Conditions of Agreement'. In all cases, a Blasting Permit must be obtained in advance from the appropriate City agency. 591.4 Dry Riprap Unless otherwise Indicated, all rocks used in these types of riprap shall weigh between 50 and 150 pounds each and at least 60 percent of the rocks shall weigh more than 100 pounds each. The rocks shall be placed in a single layer with close joints. The upright axis of the rocks shall make an angle of approximately 90 degrees with the embankment slope. The courses shall be 591 Rev. 09130187 Page 1 Riprap for Slope Protection placed from the bottom of the embankment upward. with the larger rocks being placed on the lower courses. Open joints shall be filled with spalls. Rocks of greater dimension than the required riprap thickness shall be embedded in the embankment to present a uniform finished top surface such -that the variation between lops of adjacent rocks shall not exceed 3 inches. Rocks that project more than the allowable amount in the finished work shall be replaced, embedded deeper or chipped. Dry Riprap may have a toe wall of concrete with dimensions and reinforcement indicated • - - 591.5 Mortared Rock Riprap Rock for this purpose, as far as practicable. shall be selected as to size and shape in order to secure fairly large. flat- surfaced rock which may be laid with a true and even surface and a minimum of voids. Fifty percent of the mass rock shall be broad flat rocks, weighing between 100 and 150 pounds each. placed with the flat surface uppermost and parallel to the slope. The largest rock shall be placed near the base of the slope. The spaces between the larger rocks shall be tilled with rocks of suitable size. leaving the surface smooth, reasonably tight and conforming to the contour required. In general. the rocks shall be placed with a degree of care that will insure for plane surfaces a minimum of variation from the true plane of not more than 3 inches in 4 feet. Warped and curved surfaces shall have the same general degree of accuracy as indicated for plane surfaces. - Before placing mortar. the rocks shall be wetted thoroughly and as each of the larger rocks is placed. it shall' be surrounded by fresh mortar antl adjacent rocks shall be shoved into contact. After the larger rocks are in place. all of the spaces or opening(s) between them shall be filled with mortar and the smaller rocks then placed by shoving them into position. forcing excess mortar M the surface and insuring that each rock is carefully and firmly embedded laterally. After the work has been completed as described above. all excess mortar forced up shall be spread uniformly to completely fill all surface voids All surface joints then shall be pointed up roughly, either with flush joints or with shallow, smooth raked joints.. • 591.6 Concrete Riprap Concrete for riprap shall be placed as indicated or as established by the Engineer. Unless otherwise indicated. concrete nprap shall be reinforced using wire or bar reinforcement. Concrete shall be Class A or as indicated and shall conform to Item No 403. "Concrete for Structures'. When welded wire reinforcement is Indicated. it shall be a minimum of 6 6 WI .4 WI .4 with a minimum lap of 6 inches at all splices. At the edge of the riprap. the wire fabric shall not be less than 1 Inch nor more than 3 inches from the edge of the concrete and shall have no wires projecting beyond the last member parallel to the edge of the concrete When bar reinforcement is used. the sectional area of steel in each direction shall not be less than the sectional area of the wire fabric described above The spacing of bar reinforcement shall not exceed 18 inches in each direction and the distance from the edge of concrete to the first parallel bar shall not exceed 6 inches. Reinforcement shall be supported properly throughout the placement to maintain 4s positron approximately equidistant from the lop and bottom surface of the slab. - - Unless otherwise indicated. expansion joints of the size and type indicated shall be provided at intervals not to exceed 40 feet and shall extend the full width and depth of the concrete. Marked joints shall be made u3 inch deep at 10 foot intervals. All joints shall be perpendicular and at right angles to the forms unless otherwise indicated. • Slopes and bottom of the trench for toe walls shall be compacted and the entire area sprinkled before the concrete is placed. After the concrete has been placed. consolidated and shaped to conform to the dimensions indicated and set sufficiently to avoid slumping, the surface shall be Irnrshed with a wooden float to secure a reasonably smooth surface. Immediately following the finishing operation. the riprap shall be cured conforming to Item No 410. Concrete Structures 591.7 Pneumatically Placed Concrete Riprap. Type I and Type II • Pneumatically placed concrete for riprap shall be placed as indicated or as established by the Engineer. Pneumatically placed concrete shall conform to Item No 404 "Pneumatically Placed Concrete" Reinforcement shall conform to the details indicated and Item No 406. Reinforcing Steel ". Reinforcement shall be supported properly throughout placement of concrete. All sub - grade surfaces shall be moist when concrete is placed. The surface shall be given a wood float finish or a gun finish as indicated. The strength and design of Pneumatically Placed Concrete Riprap shall be Type I or if indicated, Type II conforming to hem No 404. Pneumatically. Placed Concrete'. Immediately following the finishing operation. the riprap shall be cured conforming to hem No. 410. 'Concrete Structures ". 591 Rev. 09/30/87 Page 2 Riprap for Slope Protection 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 50.8 Meaeutement Meaeurernent of acceptable riprap wilt ber Made on the basis of the• area in square yards indicated, compl voiurrie of concrete placed in cubic yards, complete in place as indicated for the thickness specified. Concrete -toe walls will not be measured separately but shall be subsidiary to the riprap of the type with which it is placed. 591.9 Payment The riprap quantities. measured as provided above, will be paid for at the unit prices bid per square foot or per cubic yard as indicated for nprap of the various classifications shown, which price will be full compensation for furnishing, hauling and placing all materials. including toe walls, reinforcement and premolded expansion joint material and for all labor, tools, equipment and incidentals necessary to complete the work. Payment for excavation of toe wall trenches and for all necessary excavation below natural ground or bottom of excavated chan- nel will be included in the unit price bid for riprap. Payment for excavation required for. shaping of slopes for riprap shall be included in the unit price bid for riprap, except that when the header banks upon which the riprap is to be placed are built by prior contract excavation for shaping of slopes, will be paid for conforming to Item No 401. - Structural Excavation and Backfill ". Payment w■i be made under one of the following: Pay Bern Na 591 -A: Dry Riprap — Per Square Yard. Pay Item Na 591-D: Mortared Rock Riprap — Per Square Yard. Pay Item Na 591-F: Concrete Riprap, k . In — Per Square Yard. (concrete swale) Pay Item Na 591-G: Concrete Riprap — Per Cubic Yard. Pay Bern Na 591 -P: Pneumatically Placed Concrete Riprap, In. — Per Square Yard. End Ref: 401, 403, 404, 406, 408. 410. 620 591 Rev. 09/30187 in place or the Page 3 Riprap for Slope Protection 1 1 1 1 1 1 1 1 1 1 r 1 1 1 601.1 Description This item shall consist of removing and salvaging clean, friable topsoil consisting el loam, sandy loam or clay loam free of roots and rocks larger ttian 2 inches and debris and placing where indicated. 601.2 Construction Methods Item No. 601 Salvaging and Placing Topsoil The existing topsoil shall be removed from the area indicated, stockpiled in a windrow along the right of way or at designated locations or spread over an area that is ready for topsoil application in accordance with the plans or as directed by the Engineer. Trash, wood. brush, stumps. rocks over 2 inches in size and other objectionable material encountered shall be removed and disposed of as directed by the Engineer prior to beginning of work required by this item. Grass and other herbaceous plant materials -may remain. Large clumps shall be broken up. • After the grading has been completed to the required alignment, grades and cross - sections and prior to the spreading of the salvaged topsoil, any day or tight soil surfaces shall be scarified by plowing furrows approximately 4 inches deep along horizon- tal slope lines at 2 foot vertical intervals. The spreading of the salvaged topsoil shall be undertaken as soon as the grading has been completed. The topsoil shall be spread so as to form a cover of uniform thickness indicated. After the topsoil has been placed and shaped. it shall be sprinkled and rolled to provide a suitable seed bed. 601.3 Measurement and Payment Salvaging and or placing topsoil shall not be measured for payment, but shall be subsidiary to other items of work End Page 1 04117'86 601 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Bern No. 604 Seeding for Erosion Control 604.1:Description • This. item shall consist of preparing a seed bed to the lines and grades indicated, sowing of seeds, fertilizing, mulching with straw, asphalt, cellulose fiber, wood fiber and other management practiees along and across such areas as are Indicated or as directed by the Engineer /Architect /Landscape Architect. 604.2 Materials (1) Seeds • - _ • All seed must meet the requirements of the Texas Seed Law including the labeling requirements for showing pure live seed (PLS), name and type of seed. Seed furnished shall be of the previous season's crop and the date of analysis shown on each bag shall be within nine months of the time of delivery to the project. Each variety of seed shall be furnished and delivered in separate bags or containers. A sample of each variety of seed shall be furnished for analysis and testing when directed by the Engineer/Architect. The amount of seed planted per acre shall be of the type specified below. _ (2) Water , Water shall be clean and free of industrial wastes and other substances harmful to the growth of grass or the area irrigated. (3) Top Soil Top soil shall conform to Item No. 130, 'Borrow" (4) Fertilizer (6) Asphalt Emulsion (1) (5) Straw Mulch Straw Mulch shall be oat, wheat or rice straw, Prairie Grass, Bermuda Grass, other straw or hay approved by the Engineer /Architect The straw or hay shall be free of Johnson Grass or other noxious weeds and foreign materials. It shall be kept in a dry condition and shall not be molded or rotted. 604 Rev. 09 /30/87 Fertilizer shall conform to Item No. 606, "Fertilizer ". The fertilizer used shall have an analysis of 15 15 - 15, homoge- neous 13 -13 -13 or the analysis indicated. Asphalt Emulsion shall be SS - or CSS -1 asphalt emulsion or as indicated and shall conform to Item No. 301, "As- phalt, Oils and Emulsions ". (7) Cellulose Fiber Mulch (Natural Wood) Cellulose Fiber Mulch shall be natural cellulose fiber mulch produced from grinding clean whole wood chips. The mulch shall be designed for use in conventional mechanical planting. hydraulic planting of seed or hydraulic mulch- ing of grass seed, either alone or with fertilizers and other additives. The mulch shall.be such, that when applied, the material shall form a strong, moisture- retaining mat without the need of an asphalt binder. (8) Wood Fiber Mulch (Newsprint) Wood Fiber Mulch shall be produced from ground newsprint with a labeled ash content not to exceed 7 percent. The mulch shall be designed for use in conventional mechanical planting, hydraulic planting of seed or hydraulic mulching of grass seed, either alone or with fertilizers and other additives. The mulch shall be such, that when ap- plied. the material shall form a strong, moisture- retaining mat without the need of an asphalt binder. 604.3 Construction Methods Preparing Seed Bed After the designated areas have been rough graded to the lines, grades and typical sections indicated or as provided for in other items of this contract and any other soil area disturbed by the construction, a suitable seed bed shall be. prepared. The seed bed shall consist of either 4 inches of approved topsoil or 4 inches of approved salvaged topsoil cultivated and rolled sufficiently to a state of good tilth which could prevent the seed from being covered too deep for optimum germination. The optimum depth for seeding shall be / inch_ Water shall be applied as required to prepare the seed bed. Seeding shall be performed in accordance with the requirements hereinafter described. (2) Watering All watering shall comply with City Ordinances. Broadcast and asphalt mulch seeded areas shall immediately be watered with a minimum of 5 gallons of water per square yard or as needed and in the manner and quantity as directed by the Engineer/Architect. Page 1 Seeding for Erosion Control Watering applications shall constantly maintain the seed bed in a wet condition favorable for the growth of grass. Watering can be postponed immediately after a rainfall on the site of i/z - inch or.greater, but shall be resumed before the soil dries Out Watering shall continue until the grass is uniformly 11 inches in height and accepted by the Owner. Hydraulic seeded areas shall be watered commencing after the tackifier has dried with a minimum of 5 gallons of water per square yard or as needed to keep the seed bed in a wet condition favorable for the growth of grass. Watering can be postponed immediately after a rainfall on the site of 1/2 inch or greater, but shall be resumed before the soil dries out. Watering shall continue until the grass is uniformly 11/2 inches in height and accepted by Owner. Native grass seeded areas shall be watered commencing after the tackifier has dried with a minimum of 5 gallons of water per square yard or as needed to keep the seed bed in a wet condition favorable tvr the growth of grass. Watering can be postponed immediately after a rainfall on the site of 1 inch or greater, but shall be resumed before the sail dries out. Watering shall continue until the grass is uniformly 11/2 inches in height and accepted by Owner. 604.4 Nonnative Seeding - (1) Method A — Broadcast Seeding The seed or seed mixture in the quantity specified shall be uniformly distributed over the prepared seed bed areas indicated or where directed. If the sowing of seed is by hand, rather than by mechanical methods, the seed shall be sown in two directions at right angles to each other. If mechanical equipment is used, all varieties of seed. as well as fertilizer. may be distributed at the same time, provided that each component is uniformly applied at the specified rare. After planting. the planted area shall be rolled with a corrugated roller o1 the "Cultipacker" type. All rolling of the slope areas shall be on the contour. Seed Mixture and Rate of Application for Broadcast Seeding: From September 15 to March 1. seeding shall be with a combination of unhulled Bermuda Grass at a rate of 2 pounds per 1000 square feet and winter rye at a rate of 7 pounds per 1000 square feet that has a PLS = 0.83. From March 1 to September 15. seeding shall be with hulled Bermuda Grass at a rate of 2 pounds per 1000 square feet with a PLS = 0.83. Fertilizer shall be applied and shall conform to Item No 606. 'Fertilizer". (2) Method 8 — Hydraulic Planting The seed bed shall be prepared as specified above and hydraulic planting equipment. which is capable of placing all materials in a single operation. shall be used. 604.5 Mulch ( 604 Rev. 09/30187 March 1 to September 15 Hydraulic planting mixture and minimum rate of application per 1000 square feet: Hulled Bermuda Water Soluble Fiber Mulch Soil Seed (PLS = 0.83) Fertilizer Cellulose Wood Tackifier 1 It 15 lbs. 45.9 lbs. 14 lbs. 57 -4 lbs. 15 lbs. September 15 to March 1 Add 7 pounds per 1000 square feet of winter rye with a PLS = 0.83 to above mixture. Fertilizer shall conform to Item No 606, "Fertilizer ". Mulch — Asphalt Mulch The cultivated area or seed bed shall have a relatively smooth surface without ruts or tracks. Water shall be applied to the seed bed until a minimum depth of 4 inches is uniformly moistened. The water shall be applied in such a manner as not to erode the smooth surface. After the wafering. when the surface of the seed bed has become sufficiently dry to permit planting, the seed mixture and fertilizer application specified above shall then be planted at the rate required and the application shall be uni- form If the sowing of seed i5 by hand, rather than mechanical methods, the seed shall be sown in two directions al right angles to each other Seed and fertilizer may be distributed at the same lime provided the specified uniform r ate of application tar both is obtained. When seed and fenJrzer are to be drstrrbuted as a water slurry. the mixture shall be applied to the area to be seeded within 30 minutes after an components are placed in the equipment Upon the completion of the sowing of the seed. the application of the asphalt emulsion shall follow as rapidly as possible Immediately poor to the application of the asphalt emulsion. the planted area shall be watered sufficiently tO.assure uniform moisture from the surface to a minimum Ot 4 inches in depth Application oI the asphalt emulsion shall be at the rate of approximately 0.3 gallon per square yard. It shall be ap- plied to the area in such a manner that a complete film is obtained and the finished surface shall be comparatively smooth Page 2 Seeding for Erosion Control 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 (2) Asphalt Coated Straw Mulch Straw mulch shall be spread uniformly over the area indicated or as desiihated the Engineer /Architect at the rate Of 2 to 2%r tons of straw per acre. The actual rate of application will be designated by the Engineer /Architect. A mulching machine. approved by the Engineer/Architect, shall be equipped to inject asphalt emulsion material into the straw - uniformly as d leaves the equipment at aTate of 0.05 to 0.10 gallons of asphalt per square yard of mulched area. If the straw and asphalt emulsion are placed by hand, the rate of application for asphalt emulsion shall be approximately 0.15 gallons per square yard. (3) Shredded Brush Mulch Small brush or tree limbs. ei<cept Juniper, which have been shredded may be, used for mulching Native Grass seeding. (4) Straw Mulch Straw mulch shall be spread uniformly over the area indicated or as designated by the Engineer /Architect at the rate of 2 to 21/2 tons of straw per acre. The actual rate application will be designated by the Engineer /Architect. Straw may be hand or machine placed and adequately secured. (5) Fiber Mulch Cellulose and wood fiber mulch shall be spread uniformly over the area indicated or as designated by the En- gineer/Architect at the rate of 45 to 80 Ibs- per 1000 square feet. 604.6 Native Grass Seeding The seed bed shall be prepared as specified above. The seed mixture and the rate of application shall be as follows: Alamo Swdchgrass Lorneta Indiangrass Premier Sidecals drama Green spangletop Buffalo Grass Bermuda Grass Total Seeding Rate 1.0 Ibsr1000 sq. ft. Species substitution as necessary due to availability shall be approved by the EngineerArchilect. Watering and fertilizer applica- tion shall follow procedures outlined above or as otherwise specified. Seed shall be applied by broadcast or drill method and shall be distributed evenly over the topsoiled areas. Mulching shall imme- diately follow seed application 604:7 Measurement Work and acceptable materal for - Seeding for Erosion Control' will be measured by the square yard or by the acre, complete in place, with a minimum of 95 percent coverage with no bare areas exceeding 16 square feet and a 11/2 inch stand of grass. Bare areas shall be reprepared and reseeded as required to develop an acceptable stand of grass. 604.6 Payment The work performed and materials tut Hushed and measured will be paid for at the unit price bid for "Seeding for Erosion Control" of the method specified, "Asphalt Mulch ". 'Asphalt Coated Straw Mulch" or "Shredded Brush Mulch", as the case may be, which price shall be full compensation for furnishing all materials, including all topsoil, water, seed. tackifier, fertilizer or mulch and for performing all operations necessary to complete the work. All fertilizer will be measured and paid for conforming to Item No. 606. "Fertilizer' End Ref: 130, 606 604 Rev. 09/30/87 0.1 Ibs /1000 sq. ft. 0.1 Ibsr1000 sq. ft. 0.2 Ibsr1000 sq. ft. 0.1 Ibsi1000 sq. ft. 0.2 Ibsi1000 sq. ft. 0.2 lbs/1000 sq. ft. Payment will be made under one of the following_ Pay Item No. 604 -A: Seeding for Erosion Control — Method __. B Straw Mulch — Per Square Yard. Pay Item No. 604 -B: Seeding for Erosion Control — Method __. __.. _ - -_... Mulch — Per Acre. Pay Item No. 604 -M: Mulch. _ __ _ — Per Square Yard. Pay Item No. 604 -N: Native Grass Seeding — Per Square Yard. Page 3 Seeding for Erosion Control 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Unless otherwise indicated, fertilizer shall be applied uniformly at the following rate: End FERTILIZER APPLICATION No separate payment will be made. Should be subsidiary to Item 604. Item. No. 606 Fertilizer 606.1 DeSaription This item Shall consist o1 providing av1 distributing fertilizer over 'such - areas as indicated and in - accordance with these �eciSieakions.. - .. 605.2 Materials All fertilizer used shall be delivered in bags or containers clearly labeled showing the analysis. The fertilizer is subject to testing • by the State Chemist in accordance with the Texas Fertilizer Law. A pelleted or granulated fertilizer shall be used with an analysis indicated below. The figures in the analysis represent the percent of nitrogen. phosphoric acid and potash nutrients, respectively. as determined by the methods of the Association of Official Agricultural Chemists. Fifty percent or greater of the Nitrogen re- quired shall be in the form of Nitrate Nitrogen (NO,). The remaining Nitrogen required may be in the form of Urea Nitrogen (CO(NH,),). In the event it. is necessary to substitute a fertilizer of a different analysis. it shall be a pelleted or granulated fertilizer with a lower concentration. The total amount of nutrients furnished and applied per acre shall equal or exceed that specified for each nutrient. 606.3 Construction Methods Pelleted or granulated fertilizer shall be applied uniformly over the area specified to be fertilized and in the manner directed for Me particular item of work. The fertilizer shall be dry and in good physical condition. Fertilizer that is powdered or caked will be rejected. Distribution of fertilizer for the particular item of work shall meet the approval of the Engineer. NEW CONSTRUCTION FERTILIZER ANALYSIS USE TYPE POUND PER ACRE NEW PLANTING MAINTENANCE Broadcast Seeding Any 400 15 -15 -15 15 -10.5 Hydraulic Planting Water Soluble 653 15 -15 -15 15 -10 -5 Sodding Any 300 15 -15 -15 15.10 -5 Trees Any — 16.8.0 15 -15 -15 Damaged Trees Any — 16 -8 -0 15 -15 -15 Shrubs and Plants Any — 16 -8 -0 15 -15 -15 Maintenance fertilizing shall be applied every 6 months after the new sod or grass is placed or until the work is accepted by the City. 606.4 Measurement Work and acceptable material for "Fertilizer" will be measured by the ton of 2,000 pounds or by the 100 pounds as determined by approved scales or guaranteed weight of sacks shown by the manufacturer. 606.5 Payment The work performed and materials furnished and measured as provided under "Measurement' will be considered subsidiary to other items in the contract unless shown in the Bid as a Pay Item, in which case it will be paid for at the-unit price bid for "Fertil- izer" of the analysis specified, which price shall be full compensation for furnishing all materials and performing all operations necessary to complete the work. Payment, when specified, will be made under one of the following: Pay Item No. 606 -A: Fertilizer Per Ton. Pay Item No. 606 -B: Fertilizer — Per 100 Pounds. Page 1 04/17/86 606 1 1 1 1 1 1 1 1 1 1 1 1 1 1 fter% No. 639 Reek Berm 639.1 Description This ilea snail of a temporary berm constructed of open graded rock installed at the toe of a slope on the perimeter of a developing are.. The purpose of a rock berm is to intercept sediment laden water from unprotected areas, retain the sediment and release the water in sheet flow. This item shall include removal of the "Rock Berm" and revegetation of the area. 639.2 Design Criteria A rock oerm,is constructed near the perimeter of a disturbed site within the developing area. A detailed design is not required for the installation of a rock berm; however, the following criteria shall be observed: Drainage area — less than 5 acres. Height • — 18 inches minimum height, measured vertically from the top of the existing ground at the upslope toe to • the top of the berm. • Top width — 2 feet minimum. Side slopes — 2:1 or flatter. Grade — Berms will be built along a contour at 0 percent grade or as near possible, 639.3 Materials Surplus rock excavated from utility trenches or from other excavations may be used for construction of these berms. In general, stones shall be sound with a minimum of 3 inches in smallest dimension and shall weigh between 10 and 30 pounds each. Seeding for revegetation shall conform to Item No. 604, "Seeding for Erosion Control". Use only open - graded rock, with most of the fines removed. 639.4 Construction Methods All trees, brush, stumps, objectional material shall be removed and disposed of so as not to interfere with the construction of the berm. A trench shall be excavated to place the rock as indicated. The rocks shall be placed in layers with close joints starting at the base. Open joints shall be filled with spells as required to stabilize the berm. The rock berm shall be inspected after each rain and the stone shall be replaced when the structure ceases to function as intended due to silt accumulation among the rocks, washout, construction traffic damage, etc. When the site is completely stabilized, the berm will be removed and disposed of in an approved manner. The area will be revegetated as required by Item No. 604, 'Seeding for Erosion Control ". The area upstream from the rock berm shall be maintained in a condition which will allow sediment to be removed following the runoff of a rainfall event. Inspection, after each rainfall of 1 inch or more, will be made by the Contractor, and when the silt reaches a depth equal to '/2 the height of the berm or 1 loot, whichever is less. the Contractor will remove the accumulated silt and dispose of it at an approved site in a manner that will not contribute to additional siltation. The berm will be reshaped as needed during construction. The rock berm shall be left in place until all upstream areas are stabilized and then removed and the area revegetated. 639.5 Measurement Acceptable work performed and prescribed in this item will be measured by the linear foot along the centerline of top of berm. 639.6 Payment Work performed and material furnished to construct this item will be paid for at the unit price bid per linear fool. This work shall also include seeding, inspection, silt removal, rock replacement, removal of rock berm and reseeding. Payment will be made under: End Pay Item No. 639: Rock Berm — Per Linear Foot Page 1 04/17/86 639 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 642.1 Description Ttiip itdr t shall consist of providing and placing a filter fabric fence to temporarily control erosion by intercepting and retaining sediment along -or across such areas as indicated. in accordance with these specifications, including maintaining fence, remov- ing silt and removing fence upon completion of the project: 642.2 Materials 41 ) Fabric (a) General • The filter fabric shall be either woven or nonwoven synthetic thermoplastic fiber material which is non - biodegradable, inert to most soil chemicals. contains ultraviolet stabilizers, is unaffected by moisture or other - - - weather conditions, has nonravelling - edges and will allow water to pass through it while retaining sediment The filter fabric shall be supplied in rolls a minimum of 36 inches wide and be manufactured for use as a silt fence. (b) Physical Requirements The fabric shall meet the following requirements when sampled and tested in accordance with the methods indicated. Test Original Physical Properties Fabric weight. on an ambient tempera- ture air -dried tension free sample, ex- pressed in oz sq. yd. Water flow rate by falling head method, 7.9 inches (20 cm) to 3.9 inches (10 cm) on 2 inch ID cylinder with 1 inch diameter orifice. with flow rate ex- pressed in galaq. ft ;minute Breaking load in either machine or cross - machine direction. expressed in pounds Equivalent opening size (US Standard sieve no.) Apparent elongation" al breaking load in either machine or cross - machine di- rection, expressed as percent Puncture Strength Pounds Mullen Burst Strength. psi Abrasion Resistance, Pounds Ultraviolet Resistance % strength retention Method Requirements SDHPT Test Method 6.0 minimum Tex-616 -J "Testing of Con- struction Fibers" Tex -616 -J 40 minimum ASTM 0 1682 grab method G 100 minimum as modified by Tex -616 -J CW-02215, US Army Corps of Engineers. Civil Works Construction Guide Specifica- tion. "Plastic Filter Fabric November. 1977. ASTM D 751 (modified) ASTM D 3786 ASTM D 1175 Taber Test (1000 Rev., 1 kg load per wheel) ASTM D 1682 (500 Xenon 70 Weatherometer hours) Page 1 40 to 100 ASTM D 1682 grab method G 100 maximum as modified by Tex -616 -J 60 220 30 Item No. 642 Silt Fence (2) Posts Posts shall be painted steel Tee posts, not less than 5 feet in length with a minimum weight 0 ( 1 . 3 pounds per foot with stabilizers plates. Hangers shall be actuated to secure fence and fabric to posts 04/17.86 642 (3) Wire. Fence Wire fence shall be welded wire fabric 6x6- W1.4xW1. and shall conform to Item No. 406 ", Reinforcing Steel ". 642.3 Construction Methods The sill fence fabric shall be securely attached to the posts and the wire support fence with the bottom 12 inches of the filter material toed -in to prevent sediment passing under the fence. The filler fabric and wire fence shall be a minimum of 30 triches high. Posts shall be embedded a minimum of 18 inches in the ground, placed 6 to 10 feet apart and set on a slight angle toward the anticipated runoff source. No horizontal joints will be allowed in the filter fabric. Where it is necessary to have a vertical joint. the fabric shall be overlapped a minimum of 12 inches with the ends sewn or otherwise securely attached to prevent sediment loss. When silt fence is constructed on impervious material, an 18 inch flap of fabric shall be extended upstream from the bottom of the silt fence and weighted to limit the bypassing of silt. The "Silt Fence" shall be repaired or replaced and silt buildup removed when necessary or as directed by the Engineer 642.4 Measurement The work performed and the materials furnished prescribed by this item will be measured by the linear foot of Silt Fence ". complete in place. 642.5 Payment The work performed and materials furnished and measured as provided under Measurement" will be paid for at the unit price bid per linear foot of "Silt Fence" as indicated. which price shall be full compensation for furnishing, hauling and placing all materials including all labor. tools. equipment and incidentals needed to complete the work for inspecting. repairing and removing silt after every rainfall and for removing and disposing of all materials at the completion of construction. Payment will be made under' Pay Item No. 642: &It Fence for Erosion Control — Per Linear Foot. End 642 04/17/86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 m 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 670.1 DESCRIPTION This item shall consist of a temporary barrier constructed with hay bales installed across or at the toe of a slope. The purpose of a hay bale dike is to intercept and detain small amounts of sediment from unprotected areas of limited extent. 670.2 CONSTRUCTION METHODS Bales shall be placed in a row with ends tightly abutting the adjacent bales. Each bale shall be embedded in the soil a minimum of four inches, where possible, and securely anchored in place by stakes or re -bars driven through the bales. The first stake in each bale shall be angled toward previously laid bale to force bales together. Inspection of bales shall be frequent, and repair or replacement shall be made promptly as needed by Contractor. Bales shall be removed when they have served their usefulness so as not to block or impede storm flow or drainage. 670.3 MEASUREMENT 670.4 PAYMENT Payment will be made under: End. Pay Item No. 670: Hay Bale Dike -- per linear foot. Item -No. 670 Hay Bale Dike Acceptable work performed as prescribed by this item shall be measured by the linear foot along the center line of the dike. Work performed and materials furnished for this item will be paid for at the unit price bid per linear foot. Page 1 670 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 706,1 Description This Item shall consist 01 the construction of concrete, steel, aluminum or pipe railing or a combination of these materials on bridges, walls or incidental structures as indicated. In general, railing shall include that portion of the structure erected on and above the roadway curb or along the edges of walks, curbs andfor.slabs for the protection of traffic and pedestrians and shall include the tie in anchorage to the approach railing erected on the embankment. Railing. including the necessary anchorage, shall be constructed in accordance with the details indicated. 706.2 Materials All materials shall conform to Class H, Item No.403, "Concrete for Structures ", Item No. 406. "Reinforcing Steel" and Item No. 720, 'Metal for Structures" as the case may be. 706.3 Construction Methods item No. 706 Bridge and Culvert Railing Railing shall be of the classification and type specified conforming with the requirements herein and shall be constructed in accordance with details indicated. It shall be constructed to the alignment, grade and camber indicated. Shop fabricated railing shall be uniform to insure good joints and continuous lines after erection on the structure. Any appreciable amount of cutting, bending or tilling required during erection to produce a reasonable fit will be cause for rejection of the rail. Unless otherwise provided, railing shall not be placed until falsework, if any, for the span has been released. During construction, care shall be exercised to insure proper functioning of expansion joints. Unless otherwise indicated, rail posts shall be vertical. Fabrication and erection of metal for railing shall conform to Item No. 721, "Steel Structures" and to the requirements of this specification. Splicing of members will be permitted only. as provided by contract plans. In general, splices shall be at rail posts. All splice locations and details shall be as indicated. For metal railings, shop drawings shall be prepared and forwarded for review in accordance with Item No. 720, "Metal for Structures ". Welding shall conform to Item No. 723, "Structural Welding" and with applicable American Welding Society requirements. Railing materials shall be stored above the ground on platforms. skids or other supports and kept free from grease, dirt and contact with dissimilar metals. Care shall be taken at all times to avoid scratching, marring, denting, discoloring or otherwise damaging the railing. Unpacking and storing of rail members at the job site shall be in accordance with manufacturer's recommendations. To facilitate bending or straightening, aluminum materials other than castings may be heated not to exceed 400 F for a period not exceeding 30 minutes. Welding of aluminum materials shall be done by an inert gas shielded, electric arc welding process using no welding flux. Torch or flame cutting of aluminum will not be' permitted. (1) Concrete Railing For concrete portions of railings, the construction and removal of forms and the placing, curing and surface finishing shall conform to Item No. 410, "Concrete Structures" and to the requirements herein. Provisions shall be made in constructing forms to provide for checking and correction of railing lines and grades after concrete has been placed, but before initial set and the finish floating of the railing tops shall not disturb the form alignment after the final check. Particular care shall be exercised in other construction operations to avoid disturbing or vibrating the span with the newly placed railing. Construction joints at the bottom of rail posts or rail parapet shall conform to Item No 410, "Concrete Structures ". For precast members, care shall be taken to preserve true and even edges and corners. Any member which becomes marred or cracked will be rejected and shall be removed from the work. All storing, splicing, bending and placing of reinforcing steel for railing shall conform to the pertinent provisions of Item No. 406, "Reinforcing Steel ". (2) Pipe Railing Pipe shall be fabricated from the material and to the shape and dimensions indicated. Pipe rail and posts shop fabricated into panels shall be mounted in a jig clamped in their true relative positions, accurately spaced with respect to each other and while assembled shall be completely welded or bolted, as the case Page 1 12/03/06 706 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 may be. When indicated. as each rail section is completely assembled and connected, the adjacent section shall be set in its prope? relative positions, with the ends engaged and remain in this position until completely connected. Each pair of sections shall be matchmarked.so they may be erected to the same order in which they were fabricated. Metal Rail The fabricated elements shall conform to the dimensions and cross section indicated. The rail shall be straight and free from warp. Maximum deviation from straightness of either edge of a lull length section shall be 'h inch. Rail elements shall be jointed and connected to the rail posts as indicated. Lapped elements shall have the lapin the direction of traffic in the adjacent lane. (4) Cast Rail Posts - - • Castings shall be true to pattern in form and dimensions and shall be of the materials indicated. Castings shall be permanent mold castings of uniform quality and condition, Tree from'cracks and shall be free of defects such as blow holes, porosity, hard spots or shrinkage effects which are extensive enough to materially affect their suitability for the intended use. The castings shall be free of all burrs, fins, discoloration and meld marks and shall, when finished, have a smooth and uniform appearance and texture. Castings shall be produced under radiographic control, consisting of radiographic examination of them, until proper foundry technique is established for each mold to produce a product free from harmful internal defects. Radiographic examination of production castings will be made as necessary to insure maintenance of satisfactory quality. Mill test reports shall be furnished showing the chemical composition, tensile strength, elongation and number of pieces for each lot. When required, the caslings.shall be heat treated to produce material with the utmost uniformity conforming to the properties specified. The whole casting shall be heat treated and never a portion only. All castings shall be permanently marked on the web or top of base with the lot number and with heat treat let identification. Such markings shall be sufficient to correlate the castings with the mill test reports. To provide more uniform materials and to reduce the number of samples required to establish material compliance, the entire number of acceptable posts case from each lot shall be furnished to the project. except where less than the complete l01 is required or where a portion of a lot is required to complete the shipment. The mill test report shall indicate the number of posts represented by each lot and furnished to the project. For aluminum, a lot of castings shall consist of not more than 1.000 pounds of trimmed castings when produced from batch type furnaces or 2,000 pounds when produced from a continuous furnace during a period not exceeding 8 consecutive hours. (3) 706.4 Tests One post from each cast aluminum post - lot shall be selected by the Engineer for test purposes and shall conform to Item No. 720, "Metal for Structures ". For Metal Beam Rail. a sample of the raitand.terminal may be taken from each shipment to a project. A test coupon cut from the material and tested in the Department Laboratory as specified in ASTM Designation: E 8, Figure 6, shall elongate not less than 12 percent in a 2 inch gauge length. 706.5 Protective Coating Unless otherwise indicated, all portions of steel railing may be either painted or galvanized. When painted, the type and coating thickness shall be in accordance with the paint system shown on the Specification Data Sheet and shall conform to Item No. 722, "Paint and Painting ". Galvanized railing shall be hot dip galvanized after fabrication in accordance with ASTM A 123 and A 153, except that, unless otherwise indicated, any deep beam rail element may be galvanized before fabrication with a coating designation G 210 in accor- dance with ASTM A 525. Aluminum railing and galvanized steel railing will normally not require field painting. Prior to acceptance, extrusion marks, grease, dirt and grime shall be cleaned from the railing. After erection, galvanizing on all parts of steel posts and rail elements which has become scratched, chipped or otherwise dam- aged shall be thoroughly cleaned and the cleaned area painted with 2 coats of zinc dust -zinc oxide paint conforming to the requirements of Federal Specification TT -P -641 b or repaired by the application of repair compounds meeting Federal Specifica- tion 0 -G -93 (Stick only) in accordance with the manufacturer's recommendations. .706 04/17/86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Where fabrication [. is done after galvanizing and hen indicat the cut edges and boil holes shall be cleaned by brushing and the cleaned area shall be painted with 2 coats of zingdust-zinc oxide paint conforming to the reigtalrements of Federal Speciflca- Vett TT- P- 641b.orshall be repahed by application Of galvanizing repair compounds meeting Federal Specification 0-0-93 {Stick only) in accordance With the manufacturerarecontimendations. 706:6 Designation of Raiding Railing shall be designated by the general classification and type indicated. If the plans include details of both steel and alumi- num designs for the same type of railing, the Contractor has the option of furnishing either type. The option chosen (steel or aluminum} shaft be furnished for all railing of that type on the entire contract. 706.7 Measurement Railing of the classification and type designated will be measured by the linear foot, complete in place, in accordance with the dimensions and details indicated. 706.8 Payment Payment will be made at the unit price bid per linear foot for railing of the classification and type indicated, complete in place, measured as herein provided, which price shall be full compensation for furnishing, preparing and placing of all concrete, expan- sion joint material, reinforcing steel, structural steel, aluminum, cast steel, pipe, anchor bolts and all other materials required in the finished railing and for all labor, tools, hardware, equipment, paint and painting, galvanizing and incidentals necessary to complete the work in the manner and in accordance with the details specified in the contract. For metal railing, the price paid shall be for the length of metal rail installed and shall not include concrete parapet walls or concrete wing terminal walls unless specifically designated. Payment will be made under: End Pay Item No. 706: Bridge and Culvert Railing, Type — Per Linear Foot. Pay Item No. 706GP: _�_ In Galvanized Pipe Handrail — Per Linear Foot. Pay Item No.706PT. In. Painted Square Tubing Handrail — Per Linear Foot. Page 3 12/03/86 706 824.1 Description 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 824 Traffic Signs This item shall consist ot.the furnishing and placing of Traffic Signs including excavation and tback fidl,. concrete, reinforcement. posts. hardware and signs. 824.2 Materials • (1) Concrete Concrete for sign post foundations shall be Class A concrete conforming to Item No. 403, "Concrete for Structures ", (2) Reinforcing Steel • Reinforcing steel shall conform to Item No 406, " Reinforcing.Sleel ". The sizes and dimensions shall be as indicated. (3) Posts Post tubing shall be in lengths of 10, 11, 12 and 13 feet as indicated. Diameter and size: Outside diameter (O, D,) shall be 2.375 inches (2% inches); wall thickness shall be 0.065 inch; weight shall be 1.60 pounds per foot. Post shall be constructed of welded steel tubing conforming to ASTM A 513 or ASA 6036T6 -Mil, ASA 25995 schedule 10 seamless aluminum. Steel post tubing shall be hot dipped galvanized to obtain a weight of 1 .25 oz. /square foot of sheet meeting Federal Specification A -G -90. Welded steel shall be hot dipped galvanized bosh inside and outside of tubing. Post tubing shall have up to 11 each % inch holes punched or drilled as indicated. All sharp edges shall be removed from ends of tubing to eliminate burrs, etc. All posts shall be prepared and painted with a 2.5 mil thickness of Federal yellow enamel. Applied coating shall show no damage by the following chemicals: gasoline, motor oil, alcohol, 30 percent sodium hydroxide, 30 percent hydro- chloric acid, 30 percent nitric acid or 30 percent sulfuric acid. (4) Hardware The mounting clamp shall be able to be attached on a 23/4 inches outside diameter post by a U -bolt We inch diameter with 1 inch of threads on each end and shall meet the details indicated. Hardware shall slide freely on pipe when properly loosened. Clamp shall stand a torque of 15 ft. -lbs. when tightening nuts on U -bolls or sign blanks to clamp. U -bolt made from cold rolled steel shall stand a minimum of 20 tt. -Ibs. torque when tightened around sign post. Pipe clamp casting shall be aluminum alloy A 444.0 or 356.0-F and all sign mounting clamp parts not made from aluminum shall be cold rolled steel, stainless steel or galvanized steel. The Contractor shall submit a sample of all types of mounting clamps they propose to use for approval prior to order- ing materials. The Contractor shall furnish the results of any State or Federal tests performed upon their product with the approved submittal. (5) Sign Blanks Sign blanks shall be 0.080 inch thickness, alodine finished 6061 -T6 aluminum of the dimensions indicated. (6) Sign Faces (Reflective Sheeting) The reflective material shall consist of spherical enclosed lens elements embedded within a transparent plastic having a smooth, flat outer surface. The surface shall be compatible with recommended process inks needed to produce sign faces. Sheeting, decals and/or sign faces shall be furnished in the size, shape and quantity indicated. Sheeting, decals and/or sign faces shall be free from ragged edges, cracks, tears, pits, blisters, similar defects, foreign matter or other surface imperfections which would make it unsuitable for the intended usage. Complete sign faces or 20 square feet sections of sheeting shall appear uniform in color and retroreflectivity when viewed under normal day or night lighting conditions from a distance of 50 feet. Page 1 04/17/86 824 All sheeting and each sign face shall have attached to the adhesive face a liner that will prevent contact between the message faces and adhesive. This protective liner shall be capable of being removed by peeling without soaking in any type of solvent and shall be easily removed after storage for 4 hours at 160 F under weight of 3.0 pounds per square inch. The diffuse day color shall comply with the specified color requirements. Color requirements are defined by an en- closed area formed by using the following CIE Chromaticity Coordinates as corner points and the listed Y reflective limits. The sheeting's face and all areas of the face of sign faces shall have an 85 F gloss meter rating of notless than 40 conforming to ASTM D 523. The diffuse day color of the reflective sheeting shall be determined in accordance with ASTM Designation: E 97. "45- degree, 0- degree Directional Reflectance Factor of Opaque Specimens by Broad -Band Filter Reflectometry". (Geo- metric characteristics must be confined to illumination incident within 10 degrees of and centered about a direction of 45 degrees from the perpendicular to the test surface: viewing is within 15 degrees of and centered about, the per- pendicular to the test surface. Conditions of illumination and observation must not be interchanged.) The standard to be used for reference shall be the Munsell Papers.•Papers must be recently calibrated on a spectrophotorneter. Reflective sheeting, decals and each sign face shall meet all the retrodirective reflectivity requirements for its respec- tive type and color listed in the following table. Values are expressed in units of candlepower per foot candle per square foot Specific intensities shall be determined according to SDHPT Test Method Tex - 842 -B. Decal or sign faces after 48 hours of conditioning, shall have a minimum tensile strength of sheeting of 5 pounds per inch width when tested In accordance with ASTM Designation: ID 828. The sheeting, decals or sign faces. applied according to the manufacturer's recommendations to a clean etched 0.020 inch by 2 inch by 8 inch (0.51 mm by 50.8 mm by 203 mm) aluminum panel of Alloy 6061 -T6 conditioned a minimum of 48 hours and tested at 72 F (23 C) and 50 percent relative humidity shall be sufficiently flexible to show no cracking when bent around a' inch (18.1 mm) mandrel. The sheeting or sign faces shall permit cutting, application and color processing at any combination of the following temperatures and relative humidity Temperature 60 to 100 F, relative humidity to 2010 80 percent. Sheeting and sign faces will permit heat curing and unapplied sheeting at temperatures up to 150 F and up to 200 F tor applied sheeting and sign faces Sheeting or sign faces after 48 hours of conditioning at 80 to 100 F. shall show no effect when exposed for 15 min- utes to the following chemicals according to Federal Test Method 8801: mineral spirits, zylol, turpentine or methanol. Thickness of sheeting without adhesive and screen ink shall be 4.5 t0 5 mils. Sheeting or sign faces applied (according to the manufacturer's specifications) to clean, smooth, paintable and weatherproof surfaces. shall adhere so securely at temperatures of - • 20 to 175 F, that peeling, pulling or scraping of material from adhering surfaces in pieces containing areas greater than 3 square inches will be impossible. Adhe- sion test to be run not less than 48 hours after application. The reflective sheeting or sign faces shall include a precoated tack free adhesive which will adhere to prescribed surfaces only when activated by heat (175 to 200 F). The precoated adhesive shall not require additional adhesive coats on the reflective material or the application surface. Processed and applied on recommended procedures, the reflective material shall be weather resistant and following cleaning. shall show no appreciable discoloration, cracking, blistering or dimensional change and shall not have less than 50 percent of the specified (wet or dry) minimum reflective intensity values when exposed to 1000 hours Atlat Twin ARC weathering (ASTM Designation: G 23) in accordance with ASTM Designation: D 822. The following data is required to assure correlation with other laboratories: a Type and model, of exposure device —ASTM Designation: G 23 Type E Atlas XW. b. Type of light source — Sunshine carbon arc. c. Age of filters - - of filters changed every 400 hours. d. Flux density at sample location. e. Spectural uradlance at sample location, 100. 360 micro. watts per square CM. f Elapsed exposure time — 1,000 hours. g. Light/dark -- water - humidity cycle employed — 102 minutes of light followed by 18 minutes of light with spray. 5 days oer week — 48 hours per week without light or spray. Process colors (inks1 -.4 minimum of 96 hours alter processing, as well as atter the weatherometer exposure. no process ink will be removed when tested as follows: • 824 04/17 /86 Page 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 a. immerse in distilled water for 24 hours. b. Remove from water and wipe dry with soft cloths. c. Condition the panels for 8 hours at room temperature and humidity. d. Make 2 parallel scratches, 1 inch apart, through to the metal. Apply ,a 1.inch wide strip of "Scotch" Brand Masking Tape #250 and roll across the tape with 4v pound rubber roller, 8 limes. - 1. Quickly remove the tape with 1 motion and examine for damage to the inner coat or surface adhesion. Unless otherwise indicated. the reflective sheeting for emblems, decals, 'cut out numbers and letters for vehicle marking and identification shall meet the performance criteria set out in these specifications with the following excep- tions: The above materials shall be precoated with a positionable pressure sensitive adhesive backing meeting the requirements sel out above. The message shall be as indicated. 824.3 Construction Methods • Excavation required shall be done through whatever substances encountered and to the dimensions and elevation indicated or required by the site conditions as directed by the Engineer. This excavation shall be done in accordance with Item No. 401. 'Structural Excavation and Backfilling except that it will not be measured for payment and will be considered subsidiary to the respective sign supports. Reinforcing steel Shall be positioned as indicated and shall conform to Item No. 406, Reinforcing Steel ", except that it will not be measured for payment but will be considered subsidiary to the respective sign supports. Foundations for all pipe posts shah conform to Item No. 410, "Concrete Structures" Any posts to be imbedded in drilled shalt foundations shall be set carefully in the foundation holes and if directed by the Engineer. shall be held in place by an approved template before the concrete for the foundation is placed. The forms and templates, it used, shall not be removed until the concrete has aged a minimum of 24 hours. Springing or raking of posts to secure proper alignment will not be permitted. Electrical conduit where required and anchor bolts of the size, length and number as indicated, shall be positioned before the concrete is placed. Anchor bolt groups shall be set and maintained in position with a template during the placement of that portion of concrete into which anchor bolts are embedded. Care shall be taken to obtain the orientation of the anchor bolts and spacing of the anchor bolt groups as indicated Parts of the concrete foundations extending above the natural or finished ground line shall be given an ordinary surface finish conforming to Item No. 410. "Concrete Structures". If a higher type finish is indicated. It shall conform to Item No. 411. "Surface Finishes for Concrete ". No structure or post shall be erected on a concrete finish nor shall any traffic sign be attached to a sign post embedded In concrete until the concrete has aged at least 7 curing days or until otherwise directed by the Engineer. The length of each post for each traffic sign indicated shall be verified by the Contractor in order to meet the existing field condi- tions and to conform with sign mounting heights indicated. Should a be necessary to field cut a steel post to shorten it, the cut end shall he placed in the concrete foundation. Pipe sign supports shall be built up as indicated. Any part of the pipe which has bare metal exposed or Irom which the galvaniz- ing has been knocked or chipped all down to bare metal in fabrication. transit or erection shall be repaired, in accordance with the manufacturer's recommendations, by application of galvanizing repair compounds meeting Federal Specification O -G -93 (stick only) or zinc dust -zinc oxide meeting Federal Specification TT- P -641b The sign supports shall be located as indicated, except that the Engineer may shift a sign support where necessary to secure a more desirable location. The Engineer will stake all sign support locations Sign supports shall be erected at the direction of the Engineer so that the sign laces will normally be vertical and, if necessary, angled sufficiently away from perpendicular to the roadway when attached to the supports in order to prevent specular glare. If specular glare is apparent on the mounted signs under j nighttime inspection, corrective adjustments in the sign orientation shall be made at the direction of the Engineer. The multisectmon pipe post supports may, at the Contractor's option, be cast in the concrete foundation with or without the upper post section attached. However, if installation is made with the upper post section attached, the support shall not be exposed to traffic until the sign is properly affixed. The pipe stub post shall be set carefully in the foundation holes and if directed by the Engineer, shall be held in place by an approved form or template before the concrete for the foundation is placed. The forms and templates, if used, shall not be re- moved until the concrete has aged at least 24 hours. No sign shall be attached to the posts until the concrete has aged at least 7 curing days or untilotherwise directed by the Engineer. A curing day shall be as defined in Item No 410, "Concrete Structures ". Page 3 04/17/86 824 Springing or raking of. posts to secure proper alignment will not be permitted. The Contractor shall be responsible for the correctness of shop fit and field connections. Post lengths shall be approved by the Engineer prior to the fabrication of any support. _ Backhlhng shall conform to Item No. 401, "Structural Excavation and Backfilling" and the additional requirements herein. All backfdling shall be completed prior to the erection of any sign on the structure. Where nprap. embankment protection or surfacing is removed for placing foundations for traffic signs, it shall be replaced with like material as directed by the Engineer. The message as indicated shall be screened on the reflective sheeting in accordance with the sheeting producer's recommended practices utilizing screen inks approved by the Department. Screen inks shall conform to SDI Departmental Specification D -9 -8300. "Flat Surface Reflective Sheeting ". Before application, the surface must be prepared to the satisfaction of the Engineer in accordance with the manufacturer's instructions. Whenever the sign is applied over expansion joints. deep cracks or seams. it .s to be slit to avoid tearing or lifting. Any applied sign that has wrinkles. air pockets. ragged edges. tears or bends shall be removed and replaced al the sole cost of the Contractor. , Signs will be installed as Indicated or as directed by the Engineer. The installation as a whole shall be carried out in conformance with requirements herein stated and with details and dimensions indicated. Upon completion. the work shall present a neat and workmanlike appearance 824.4 Measurement traffic signs shall be measured as each complete sign constructed and placed as indicated. 824.5 Payment • The work performed and materials furnished as prescribed by this item will be paid for at the unit price bid for "Traffic Signs" per each complete in place. which price shall be full compensation for furnishing alt materials, excavation, setting posts in concrete and for all labor tools, equipment and incidentals necessary to complete the work. Payment will be made under Pay Item No. 824: Traffic Signs — Per Each. End 824 04;17 86 . Page 4 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Item No. 860 Pavement Marking Paint 860.1 Description This item shall - consist of the installation of reflectorized paint pavement marking: The width of the line shall be 4 inches and the color as indicated. 860.2 Materials (1) Traffic Stripe Reflective Glass Spheres (a) The glass spheres shall not contain more than 30 percent (by weight) irregular shaped particles when tested by ASTM Designation: D 1155. Spheres shall be essentially free of sharp angular particles and particles show- ing milkiness or surface scarring or scratching. Spheres shall be water white in color. (b) The glass spheres shall meet the following gradation requirements when tested: Openings U.S. Std. Sieves Percent Passing #20 Sieve 100 #30 Sieve 80 -100 #50 Sieve 18 -35 #100 Sieve 0 - (c) The spheres, when tested by the liquid immersion method at 25 C, shall show an index of refraction within the range of 1.50 to 1.98. (d) The spheres shall be capable of being readily wet with water when tested according to SDHPT Test Method Tex - 826 -B. (e) The spheres shall show no tendency toward decomposition, surface etching, change in retroreflective charac- teristics'or change in color after 24 hours exposure (according to SDHPT Test Method Tex - 833 -B) to weak acids, weak alkali or 100 hours of weather -o -meter exposure. (I) Spheres shall contain less than 1/4 of 1 percent moisture by weight. (g) Spheres shall be manufactured from glass. (h) Spheres shall be free of trash, dirt, etc. (1) Spheres shall show no evidence of objectionable static electricity when flowing through a regular traffic bead dispenser. (j) The recommended application rate shall be 6 pounds per gallon of paint. (k) Sampling and Testing shall be in accordance with the latest applicable SDHPT Manual on Testing Procedures. Applicable test methods are. but are not limited to the following: Tex -822 -B Tex -826 -B Tex-830-13 Tex -831 -B Tex -832 -8 Tex -833 -B (2) Pavement Marking Paint (a) Functional Requirements 1. All materials required to meet Federal, ASTM or SDHPT specifications must meet the specification as shown. 860 Rev. 09 /30/87 ASTM Designation: D 476, Type II Federal Spec, TT- P -463A. Type I (March 3, 1961) National Bureau of Standards — Chromatic Standard No. Sch. -30 Federal Spec, TT- P -403a Federal MIL- C -429C, Type I (March 6, 1969) ASTM D 362 Page 1 - Pavement Marking Paint (b) 860 Rev. 09130187 1. Raw Materials ASTM D 740 (Reapproved 1974) ASTM D 600 SDHPT Test Method Tex -806 -B SDHPT Test Method Tex -811 -B SDHPT Test Method Tex -814 -B 2. The paint shall be homogenous, well ground to a uniform and smooth consistency and shall not skin nor settle badly nor cake, liver, thicken, curdle or gel in the container. • 3. The paint, when applied to a bituminous pavement surface under no :mal field conditions, at the required rate of .015 inch wet film thickness, shall have a maximum "no pickup" drying time of 15 minutes to prevent displacement or discoloration under traffic. , • 4. In preparation of the paint, the pigments shall be dispersed in the vehicle by appropriate methods so that a fineness reading of not less than 4 is obtained with a Hegman grind gauge. 5. Consistency viscosity as determined by the Stromer Viscosimeter at 25 C shall be from 85 10 100 K.U. 6. A thin film of paint spread on a glass plate and allowed to dry thoroughly shall not darken or show any discoloration when subjected to ultraviolet rays for a period of 5 minutes. Material Requirements a. The exact brands and types of raw materials used in the wet standards are listed for the purpose of facilitating the selection of parallel materials equal, not only in quality and composition but also in physical and chemical behavior after aging in the finished product. b. It shall be the responsibility of the Contractor to utilize materials that not only meet the individ- ual raw material specification. but that also produce a coating that meets the specific formula requirements. c. Materials required to meet Federal and ASTM specifications must meet the specification as indicated. 2. Pigments a. White (1) Lead free zinc oxide: shall meet Federal specification TT- P -463A, Type I. March 3, 1961. (2) Pure Titanium Dioxide, Rutile, Nonchalking: shall meet ASTM 0 476, Type II. b. Medium Chrome Yellow (1) The luminescent factors of the pigment shall be within the limits listed below when tested before and after exposure. Initial 53 Final 45 In addition, the allowable change between the initial and final luminescent factors shall be no more than 9 units. The initial x, y chromaticity color coordinates of the pigments shall be within the rectangle defined by the sets of coordinates shown below. x y 0.490 0.511 0.514 0.535 Minimum Maximum 0.455 0.433 0.480 0.458 59.0 The pigments shall be tested according to SDHPT Test Method Tex - 810 -8. Page 2 Pavement Marking Paint 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 860 Rev. 09130/87 The color standard shall conform to the National Bureau of Standards Chromatic Standard No, Soh -30. The formulation of the test enamel using the pigments to be tested is as follows: . Material Parte by Weight Medium Chrome Yellow Long Olt Alkyd Resin (1) 4% Calcium Drier 6% Cobalt Drier Anti- Livering. Agent Anti - Skinning Agent Mineral Spirits (2) CaCO, Maximum 97.0 percent H Maximum 0.4 percent Specific Gravity 2.63-2.73 54.0 31.5. 0.6 0.3 0.1 0.2 13.3 (3) (2) Alkyd Resin Solution meeting Federal specification TT- R -266D, Type I, Class A, November 17, 1971. • (3) Mineral Spirits shall conform to ASTM D 235, Type IV. (4) The amount of mineral spirits may be varied slightly to produce the desired grinding consistency. Two coats of pigments shall be required. 3. Inert a. Talc, paint -grade magnesium silicate shall meet ASTM D 605. b. Calcium Carbonate shall conform to the following: Weight retained on #325 Screen Maximum 0.75 percent Color shall be equal to material listed in standard formula. Substitution in standard formula shall not result in a viscosity variation greater than 4 K.U. 4. Resins a. Chlorinated Paraffin shall conform to Federal Specification MIL- C -429C, Type I, May 6, 1969. b. Chlorinated Rubber shall have a viscosity (r 15 C (201/4 solution with Toluene)' 4 -6 cps. Toluene shall meet ASTM D 362 c. Traffic paint alkyd resin solution shall conform to the following: (1) General Type: Pure, drying alkyd Length: Medium Type oil: Soya, linseed or tall. No mixture of 2 or more oils will be permitted. Type Solvent: Toluene, ASTM D 362 Compatibility: A solution of 1 part 75 percent traffic alkyd and 5 parts toluene shall be clear, A solution containing the equivalent of 150 grams of 5 cps. chlorinated rubber, 130 grams of 75% traffic alkyd, 200 grams of methyl ethyl ketone shall be clear. transparent and show no separation alter 24 hours of storage in a'/. full lest tube at 80 degrees 5 F. This rubber - alkyd- solvent solution shall produce a clear film upon drying. Page 3 Pavement Marking Paint 860 Rev. 09130187 (2) Solid Resin Basis (3) 5. Thinners Percent Phthalic Andydrides Percent Oil Acids Acid number, maximum Ash residue, maximum Unsaponifiable, maximum Iodine number of fatty acids, minimum Retractive Index of fatty acids, minimum (Tall oil alkyds), maximum 45 Percent Solids Basis' Color: Gardner 1953 Standard -9 maximum. Drying Time: A wet film 3 mils thick shall set to touch in not more than 90 minutes. (Driers: Based on the resin solids present, add the equivalent of 0.06 percent Cobalt (metal) and 1.0 percent lead metal) • 'Toluene shall be used to reduce the resin solution to 45 percent solids and shall meet ASTM D 362. (4) In addition to the above requirements, the traffic alkyd resin shall meet the following percent transmittance requirements when tested according to SDHPT Test Method Tex - 814 -B, uti- lizing menthyl isobutyl ketone as primary solvent and methyl alcohol as precipitating agent. Percent Transmittance Minimum Maximum T, T, Calculate volume in milliliters of precipitating agent as follows: V, = 91X 10% 70% 33to37 48 to 55 8.0 0.10 percent 2.0 percent 115 1.4660 1.0 Where: V, = volume of precipitating agent required for T, X = grams of alkyd resin solids and V = 1.398 V, Where: V, = additional volume of precipitating agent required for T. a. Methyl Ethyl Ketone shall conform to ASTM D 740 b. Aromatic Naphtha Appearance clean, free of sediment Color water, white Boiling Range 360 F — 415 F Kauri Butanol Value 88 minimum Specific Gravity, 25 C 0.884 — 0.894 Flash Point F (TCC) 140 minimum 6. Additives and Chemicals a. Driers shall conform to ASTM D 600. b. The additives below must be supplied by the manufacturer, as listed: (1) Thermo lite 813 Available from: M & T Chemicals, Inc. 530 Exchange Bank & Trust Tower Dallas, Texas 75235 (2) Treated Bentonite Clay A. Bentone 34, N.L. Industries B. Clayton 40, Southem Clay Products Page 4 Pavement Marking Paint 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Methyl Ethyl Ketone 860.3 Construction Methods 860 Rev. 09)30/87 Traffic Alkyd, 75 Percent Solids " - - 130 Chlorinated Rubber, 5 cps., Hercules, parlors S-5 150 Chlorinated Paraffin, Type I, Hercules, Chlorafin 40 75 Treated Bentonite Clay 5 Titanium Dioxide, Rutile, DuPont, R-900 200 Lead Free Zinc Oxide, ASARCO, A20 -33 ' 50 Talc, Nytal 300 225 Calcium Carbonate, T.W. Snowflake White 250 24% Lead Drier - - - 3 6% Cobalt Drier 2 Thermolite 813, M & T Chemicals, Inc. 0.75 Aromatic Naphtha, SC -150 5 245 1,340.75 Grind particles: 4 minimum 8 maximum (SDHPT Test Method Tex 806 -B) Gallon Weight ± 0.05 lbs. of theoretical gallon weight Consistency: 85 to 100 K.U. Skinning: No skinning within 48 hours (SDHPT Test Method Tex - 811 -13) Formula: Yellow Traffic Paint Pounds Traffic Alkyd, 75 Percent Solids 130 Chlorinated Rubber, 5 cps., I.C.I. Alloprene X -5 150 Chlorinated Paraffin, Type I, I.C.I.. Cereclor 42 75 Treated Bentonite Clay 5 Titanium Dioxide, Rutile, Du Pont, R -900 25 Lead Free Zinc Oxide, ASARCO, A20 -33 50 Medium Chrome Yellow, Du Pont. Y -469 -D 157 Calcium Carbonate, T.W., Snowflake White 250 Talc, Nytal 300 250 24% Lead Drier 3 6% Cobalt Drier 2 Thermolite 813, M & T Chemicals, Inc. 0.75 Aromatic Naphtha, SC -150 5 Methyl Ethyl Ketone 250 1,370.75 Grind Particles: 4 minimum, 8 maximum (SDHPT Test Method Tex - 806 -B) Gallon Weight: ± 0.05 lbs. of theoretical gallon weight Consistency: 80 to 100 K.U. Skinning: No skinning within 48 hours (SDHPT Test Method Tex - 811 -6) The Contractor shall use a crew experienced in the work of installing pavement markings and in the necessary traffic control for such operations on the roadway surface and shall supply all the equipment, personnel, traffic control and materials necessary for the placement of the pavement markings as indicated or as directed by the Engineer. All work shall conform to the current edition of the Texas Manual of Uniform Traffic Control Devices (MUTCD) The pavement surface to receive the pavement markings shall be thoroughly cleaned of all dirt, organic growth or other material that will prevent adhesion of the paint to the roadway surface. The pavement markings shall be placed in the proper alignment with guides established on the roadway. Deviation from the alignment established shall not exceed 2 inches and in addition, the deviation in alignment of the markings being placed shall not exceed 1 inch per 200 feet of roadway nor shall any deviation be abrupt. When deemed necessary by the Engineer, the Contractor, at his expense, shall place any additional pilot markings required to facilitate the placement of the permanent markings in the alignment specified. Any and all additional markings placed on the roadway for alignment purposes shall be temporary in nature and shall not establish a permanent marking on the roadway. Materials used for pilot markings and equipment used to place such markings shall be approved by the Engineer. Page 5 Pavement Marking Paint Paint markings on the roadway that are not in alignment or sequence as indicated shall be totally and completely removed by any effective method approved by the Engineer. except that grinding will not be permitted. • Paint shall be applied at a rale of not less than 15 gallons nor more than 20 gallons per mile of solid 4 inch stripe. Application rate for solid 8 inch stripe shall be between 30 and 40 gallons per mile. (These rates yield wet film thickness from 15 to 20 mils.) Beads shall be applied to the paint markings at a uniform rale sufficient to achieve the retroreflective characteristics specified when observed conforming to SDHPT Test Method Tex-828 -B. All markings placed shall have uniform and distinctive retroreflec- tine characteristics. Under no circumstances shall the bead application rate be less than 6 pounds of beads per gallon of paint applied to the road surface. _ - - • Applied markings shall be protected from traffic until they have dried sufficiently so as not 10 be damaged or tracked by normal traffic movements. 860.4 Equipment • Paint striping equipment used to place 4 inch solid or broken lines shall have. the capability of placing a minimum of 60,000 linear feel of marking per working day. Equipment used for placing markings in widths other than 4 inches shall have capabilities similar to 4 inch marking equipment and shall be capable of placing linear markings up to 8 inches in width in 1 pass. The equipment shall be maintained in satisfactory operating condition. Four inch marking equipment will be considered as un- satisfactorily maintained d it fails to have an average hourly placement rate of 7000 linear feet in any 5 consecutive working days of 7 hours or more. The equipment shall be equipped so that one 4 inch broken line and either 1 or 2 solid lines can be placed at the same time in alignment and spacing as indicated. The equipment shall be equipped with an automatic cutoff device (with manual operating capabilities) to provide clean, square marking ends and to provide a method of applying broken line in a stripe to gap ratio of t 5 to 25. The length of the stripe shall not be less than 15 feet nor longer than 15.5 feet. The total length of the stripe - gap -cycle shall not be less than 39.5 - feet nor longer than 40.5 feet in variance from one cycle to the next nor shall the average total length of a cycle for a road mile of broken line exceed 40.5 feet or be less than 39.5 feet. The equipment shall be capable of placing fines of all widths with clean edges and of uniform cross section. Four inch lines shall be 4 inches plus or minus 'ie inch. Eight inch lines shall be 8 inches minimum and 81/4 inches maximum in width. The equipment shall be equipped with an outrigger or outriggers as required to place edgelines as called for in the plans. The equipment shall be equipped with beaddispensers, 1 for each paint spray gun. placed on the equipment so that beads are applied to the paint almost instantly as the marking is being placed on the roadway surface. The bead dispensers shall be de- signed and aligned so that beads are applied uniformly to the entire surface of the marking. The bead dispensers shall be equipped with automatic cutoff controls. synchronized with the cutoff of the marking equipment. Paint pots or tanks shall be equipped with an agitator that will keep the paint thoroughly mixed and may be either a pressurized or nonpressurized type. 660.5 Measurement Work for Pavement Marking Paint lines will be measured by the linear fool of the various widths. Work for pavement marking, paint letter or figures will be measured by the square foot. 860.6 Payment Work performed as prescribed by this item. measured as provided under "Measurement', shall be paid for at the unit price bid for "Pavement Marking Paint' per linear foot or square foot of the various widths specified. This price shall be full compensation for furnishing all labor, tools. equipment, materials and incidentals necessary to complete the work specified. Payment will be made under one of the following: Pay Item No. 860A _: Pavement Marking Paint In. – Per Linear Foot. Pay Item Na 860•B : Pavement Marking Paint – Per Square Foot. Pay Item No 860-C — : Pavement Marking Paint (Reffectorized), In. – Per Linear Fool. Pay Item No. 860 __: Pavement Marking Paint (Reflectorized) – Per Square Foot. Pay Item No. 860 – E: Pavement Marking Paint – Per Lump .Sum End 860 Rev. 09130187 Page 6 Pavement Marking Paint 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 . 900.1 DESCRIPTION This item shall consist of the restoration, complete in place, to City standards of all improvements damaged during construction of this project which are not included as a separate contract pay item. 900.2 MATERIALS AND CONSTRUCTION METHODS End The applicable items contained within this manual and the City of Austin Standard Specifications as adopted and amended by the City of Round Rock shall govern improvements to be restored. 900.3 MEASUREMENT AND PAYMENT Item `No. 900 Restoration Restoration, complete in place, of improvements, which are not included as a separate contract pay item, damaged during construction of this project shall be considered subsidiary to the contract and no measurement for additional payment shall be made. PROJECT - - - TELLABS DRIVE EXTENSION CHANGE Ofl0> =R Np Five (5) ^ City of Round Rock ssV 03/21/91 sURJECT Final Quantity Adjustment Change Order Additions Bid Item # Description 110 -0 1,089 C.Y. of Additional St. Excavation @ $4.60 /CY = $ 5,009.40 120 -B 75 L.F. of Addl. Channel Excavation @ $10.00 /LF = 750.00 210 -A 235 S.Y. of Addl. Flexible Base @ $3.60 /SY = 846.00 340 -B 67 S.Y. of Addl. 2" HMAC @ $3.15 /SY = 211.05 436 88 S.F. of Addl. Concrete Valley Gutter @ $2.00 /SF = 176.00 591 -F 29 S.F. of Addl. Concrete Riprap @ $23.00 /SF = 667.00 604 -A 5,925 S.Y. Addl. Seeding @ $0.37 /SY = 2,192.25 670 167 L.F. of Addl. Haybale Dike @ $2.00 /LF 334.00 C.O. #3 7 L.F. of Addl. 24" RCP @ $23.75/LF = 166.25 C.O. #3 1 L.F. of Addl. 30" RCP @ $45.00 /LF = 45.00 (See Sheet 2 of 2 for Deducts) ADD Total = $10,396.95 REASON FOR CHANGE Additions and Deductions to actual work performed on site. ORIGINALCONTRACT $190,481.25 ADDITIONS TO DATE S 16,272.21 DEDUCTIONS TO DATE S -0- ORIGINAL CONTRACT PERIOD 105 CAL. DAYS EXTENSIONS TO DATE 21 CAL. DAYS CONTRACT PERIOD TO DATE 126 CAL. DAYS RECOMMENDED BY ACCEPTED BY APPROVED BY CHANGE ORDER THIS ADD s 10,396.95 THIS DEDUCT 5 5,126.60 BAKER - AICKLEN & ASSOCIATE, INC. ENGINEER 4 Page 1 of 2 NEW CONTRACT AMOUNT $ 212,023.81 THIS EXTENSION -0- CAL. DAYS NEW CONTRACT PERIOD n/a CAL. DAYS AMENDED COMPLETION DATE 09/19/91 RESENTA �4rL� CON REPRESENTATIVE Ejoe M. Baker, P.E ofr °5 (YL `[a c]ti) GC Iti% C1 CTOR Representative Ci of RoLbup £oc� Owner $190,481.25 TOTALADD $ 26,669.16 TOTAL DEDUCT $ 5,126.60 - LS q DATE 1 /-VA-9I DATE SUBJECT Final Quantity Adjustment Change Order DESCRIPTION Additions: Bid Item # 210 -C 340 -C 430 -D 433 510 -A 510 -D 639 REASON FOR CHANGE See Sheet 1 of 2. ORIGINAL CONTRACT S ADDITIONS TO DATE S DEDUCTIONS TO DATE S RECOMMENDED BY ACCEPTED BY APPROVED BY CHANGE ORDER PRO TELLABS DRIVE EXTENSION OWNER City of Round Rock CEIANG€ ORDER NO. Five (5) ISSUE OATS 03/21/91 Description Deduct 201 S.Y. of Flexible Base @ $3.00 /SY Deduct 116 S.Y. 11" HMAC @ $2.60 /SY Deduct 170 L.F. Concrete Ribbon Curb @ $4.00 /LF Deduct 374 S.F. of Concrete Driveway @ $2.00 /SF Deduct 3 L.F. of 18" RCP @ $18.00 /LF Deduct Adj. 10" WW @ 1 L.S. Deduct 30 L.F. Rock Berm @ $8.00 L.E. ORIGINAL CONTRACT PERIOD CAL. DAYS EXTENSIONS TO DATE CAL. DAYS CONTRACT PERIOD TO DATE CAL. DAYS ENGINEER REPRESENTATIVE CONTRACTOR OWNER DEDUCTIONS Total THIS ADD S THIS DEDUCT S NEW CONTRACT AMOUNT S Page 2 of 2 TOTAL ADD $ TOTAL DEDUCT S _ $ 603.00 301.60 = 680.00 = 748.00 54.00 2,500.00 240.00 REPRESENTATIVE DATE $ 5,126.60 THIS EXTENSION CAL. DAYS NEW CONTRACT PERIOD CAL. DAYS AMENDED COMPLETION DATE DATE REPRESENTATIVE DATE BAKER- AICKLEN & ASSOCIATES. INC. Consulting Engineers March 21, 1991 CITY OF ROUND ROCK 221 E. Main Street Round Rock, TX 78664 Attn: Mr. Al Wille, P.E. Re: Tellabs Drive Improvements Final Quantity Adjustment Change Order No. 5 Gentlemen: Enclosed for your approval and payment is Final Quantity Adjustment Change Order No. 5 from Garey Construction Co., Inc. adjusting the contract amount to reflect the actual work performed on the above referenced project. The new contract amount, as shown on the attached Change Order, is $212,023.81. Sincerel ker, P.E., R.P.L.S. oe M. JMB:ek Enc. cc: file - 601 - 007 -30 9111 Jollyville Rd., Suite 107 • Austin, Texas 78759 • 512/346 -6980 • FAX 512/346 -7072 DATE: April 9, 1991 SUBJECT: City Council Meeting, April 11, 1991. ITEM: 13B. Consider a Change Order to Garey Construction Company, Inc. on the Tellabs Drive Project. STAFF RESOURCE PERSON: Jim Nuse STAFF RECOMMENDATION: Tellabs Drive Improvements are complete. This change order is for final quantities. Staff recommends acceptance. 40;tarruce) a c Pt ATTEST: RESOLUTION NE LAND, City Secretary C53- RS01250A WHEREAS, the City of Round Rook has duly advertised for bids for the construction of the Tellabs Drive extension project, and WHEREAS, Garey Construction has submitted the lowest and best bid, and WHEREAS, the City Council wishes to award the bid to Garey Construction and, subject to receipt of right -of -way deeds, to authorize the execution of a contract to construct said Tellabs Drive extension, Now Therefore BE IT RESOLVED BY THE COUNCIL OF THE CITY OF ROUND ROCK, TEXAS That the bid of Garey Construction is hereby accepted as the lowest and best bid, and subject to receipt of right -of -way deeds, the Mayor is hereby authorized and directed to execute on behalf of the City a contract with Garey Construction for the construction of the Tellabs Drive extension. RESOLVED this 25th day of January, 1990. MIKE ROBINSON, Mayor BAKER - AICKLEN H ASSOCIATES, INC. Consulting Engineers November 1, 1989 Hon. Mayor and City Council CITY OF ROUND ROCK 221 East Main Street Round Rock, Texas 78664 Re: Tellabs Drive Extension (North Industrial Parkway) Award of Contract Gentlemen: On October 24, 1989, bids were received for Tellabs Drive Extension. A tabulation of the bids received is enclosed. The low bid of $190,481.25 was submitted by Garey Construction Company. We have obtained notarized statements regarding their financial condition and ability to perform the work, including a previous experience record. Based on our findings, it is our opinion that Garey Construction Company is qualified and capable of performing the work; however, we understand that award may need to be subject to the establishment of a Public Improvement Assessment District (PIAD) and funds being made available by the City of Round Rock. Therefore, subject to the above action as may be required by the City Council, we recommend that the work be awarded to Garey Construction Company. In addition, the execution of the contract should be subject to approval of the performance & payment bonds and the contract form by the City attorney. Sincere Joe . Baker, P.E. JMB:ek Enc. cc: file -- 601- 007 -30 9111 Jollyville. Rd., Suite 107 Austin, Texas 78759 512/346 -6980 BID TABULATION PROJECT SPONSOR CI ty_ of Round Rock BID OPENING DATE b r 24 989 - PROJECT MANAGER: TIME: 2:00 pm ENGINEER Ba ker- Aicklen & Associates, Inc. LOCATION , , ,., to I = , TX_ PROJECT: Tellabs Drive Fxtensinn CIP PROJECT NUMBER ENGINEERS' ESTIMATE: $225,000 LOCATION, Round Rock, Texas CONTRACT NUMBER BID INVITATION NUMBER: - BIDDER. I GRAY Corr 2 C a aO a c. 3. Ci/ ASe eoO 4 'a d ; .s. .TG. t'W PROPOSAL GUARANTEE, cc - co Roos _ CTC -CERTIFIED I Cx 55 8.5 )OECEIPT OF ADDENDA ACKNOWLEDGED ✓ ✓ ✓ / r / ITEM Na C%38i TI Y UNIT ITEM DESCRIPTION UNIT PRICE AMOUNT UNIT AMOUNT UNIT UNIT AMOUNT AMOU NT UNIT AMOUNT 1 04 -G 1,300 SY - Remove Misc. Conc. 3 -00 3,9oo = 9. 85 - /z x &o5� 3.Sa 45540n 4.00 S2a0 5.60 - 7z i5 110 - C 3 CY - Street Excavation ¢ . 8o /o 00 /7 ¢�- Z 5'w -- 3. 80 Q.¢• /¢y¢¢o.m 4/00•00 3.75 5.00 /4 5•/5l9 S7o / ZSo. 00 /o. do 2500 S.SS /3. x$ 2 /, 090 33/2 s' 3 Sg s5 7E' 44 g3 SC 439 4, 0 ,51:: 1 20 -B 250 IR Channel Excavation 7 A 9,085 SY Flex. Base - 11.5 -inch 3.40 32•7Qa ¢9¢5-*- 24 4 80.zs 3.37 3,9 f2 3.49 Z.¢9 2 .68 3/ 780.65 ¢ 5 ,0 2/.353 Zlp ' ,. /oc.dc ¢•/0 -40 3.z. 0.5.9 37 z9B.sa 3.8. 3¢ 58/¢.0. $ SS/ - Z507Z 3. 40 26 .39 38z5.ec 2.70 4,', /3/ - 3.95 2,90 340 2. 210 -C 1,615 SY Flex. Base - 8 -inch a co 3./5 2.C. 340 -8 7,835 SY 2" H.M.A. C. 340 -C 1,530 SY 1 -1/2" H.M.A.C. 430 -8 4,175 LF Conc. Curb & Gutter 4- io 17 117 0 4 zS /7_7A3.7S42a /7, 5,^}5.00475 /9,'312.4'•• �/ $'/W - -25 430 -D - - - 433 170 LF Conc. Ribbon Curb 4-.00 �So•cb ¢.00 640.ao ¢.cb II G$o.00 ¢ .4a 748.0. S•0,7 8 -so.o. 5 SF Conc. Driveways Z -00 // 97c / /•9a, 2•/o //73p(� //3(,5x0 2 ./0 2.20 3 7 75 /2 .R13 -50 s 20 i •0 28 415o. co 3.50 22 ,.ex) / (o7 5 g 390 136 650 SF Conc. galley Gutters Z • / 300 us,e PDKE DID TGBULATIcw - SHEET 1, OF 4 BID TABULATION PROJECT SPONSOR City of Round Rock BID OPENING DATE 10L2 PROJECT MANAGER TIME 2:0O am ENGINEER Baker- Airklen 5 Associates. Tnr LOCATION PROJECT. Tellabs Ilrivv Fxtansinn CIP. PROJECT NUMBER ENGINEERS' ESTIMATE: $225,000 LOCATION: Round Rock, TX CONTRACT NUMBER BID INVITATION NUMBER: BIDDER G,44---5, G,44---5, G z ^ 3 C% G/l�SGo 4. T /.c - .i �!v =+ 5 d..51/..4.0- � 88 - 8n BoNo PROPOSAL GUARANTEE, CC 09I1ERS C'E08 CTC- EENTfIED CNECK B6 ✓ B3 I / :6 f .88 }ECEIPT ITEM OF ADDENDA ACKNOWLEDGED L.- UNIT ITEM DES CRIPT ION UNIT PRICE AMOUNT UNIT p AMOUNT UNIT AMOUNT UNIT PRICE AMOUNT UNIT Pfm E A AMOUNT 506 -14 3 Ea. .Storm Sewer M.H. Isoo- 4soo. o 940..20 ZSZO. ao /Soo°° —o 4-5(10. oo /200 Sao© & o SO 1 Ea. Headwalls - 30" - Dia. Pipe 850= Sso ° = 490.aD 490. / .... -. ! .00 0 .00 ?So: 750 /SSo }o . 08 -J 2 Ea. Headwalls - 24" -Dia. Pipe Soo... I,G0o'- 4/6.00 9 30.0 0 Raba. goo.ao to5o / 3ao /45.0 .g9 2900 508 - 15R 2 Ea. ' 5 Inlet, Recessed 120o..° Z 4-oo 20 4o. ., / OiO. 00 y 7/0.00 3iZO.eo /50o - a o /450 508- 1108 508- 2 Ea. 10' Inlet, Recessed 1400 Z oo .. 5 /Cn. oo i ZSO.mo ¢SGO.� lSOO 3Caon lg7o 2 Ea. 15' Inlet, Recessed 800 ° 3 ... r + S ' o.00 ZCo7o 5 ¢O o ao co 227e . 3.9 . .A„ ¢S . 1 50 8 - 508- 1 Ea. 10' Dbl. Wind. Inlet, Recessed .o ISo0— o. 15od- 255fl Z55o 200e 2000 2Z5 2Z95 H -15' .10 -' 2 Ea. 15' Dbl. Wind. Inlet, Recessed 0 2 oo 4 °Oo .a rr - G¢z 3 'D (ol' .500 50Oo 12596 Sign 12 "RC 10 -A 8 "RC to 60 130 LF Pipe, 12" RCP IS .o o. 47°° •/o X 4 , .00 /5•e. 900. do /3.5o . /D... J7.Oo /020 ea LF Pipe, 18" RCP 18 l 23 °--='- o0 340— 10 940 m /S. go, • Z /Z.8 0 ..20.60 9,13¢. 2525 1/000.0. 53.6, 2 34o // 4Z4• /q. 6 2543 INIIM -A 4 "RC• 476 LF Pipe, 24" RCP = 0'i NICE 01 TABOIATION — SHOT 2 OF 4 BID TABULATION PROJECT SPONSOR' PROJECT MANAGER ENGINEER Raker- Aicklen Cit of Round Rock BID OPENING TIME: DATE: 10 /94/89 _ 7:00 pm 9 Associates Inc LOCATION: PROJECT: LOCATION+ Tellahs Drive Extension GIP PROJECT NUMBER: CONTRACT NUMBER: ENGINEERS' ESTIMATE: $225.000 Round Rock, TX BID INVITATION NUMBER: -• BIDDER i. acee r z C.oF 3. G 7{ Asc., 4. Atexeot 4go/ 66 5 - c JC 68 BB -MD BDND PROPOSAL GUARANTEE. CC - Co nIERS CNECK CTC- CERTIHED CHECK BB 5, (3 .63. AECEIPT OF ADDENDA ACKNOWLEDGED ✓ '� ✓ ✓ r / ITEM Na Ouarmiv UNIT ITEM DESCRIPTION UN17 PRICE AMOUNT UNIT -AMOUNT UNIT AMOUNT UNIT PN AMOUNT UNIT � AMOUNT 510 -A 30 "RCI 179 LF - Pipe, 30" RCP 30oo 53 7o.ctZ 7 .2o 4 6fJ.8o 30.00 53 3Z.00 S' Z .70 `d 57 37 510 -A 13 "x2'" 86 LF Pipe, 13 "x22" R.C.A.P. 33. 2 838 • 00 3/.8o 2734 , 40. 00 3440.00 i34.oe 2424 39. 3o 332? 76 !l7s.a© 416,f7. as SG /nom rj5C1, B74c, 310 -D 1 LS Adjust 10" Water Line 2 S0o.x ?Sao . o 0 g 7o.00 g 70.a0 Soo. c'‘ 5000 /Zoo /200 //75 310 - S 400 LF Trench Safety System Z .00 80o. o 2 Lo 46..0 2.00 0 o0.cb /.o 400 /. /. 559 65 LF Conc. Box Culvert, '7'x3' 153.00 23.00 `T 4t..00.00 0 ° /7¢ /4.Ioo / /3i 2,92a. / 7goo /R /570. 3600. 3 / ,5 7 - 27 .co 8750 540 /5�.9 27.75 391 - F 200 SY Conc. Rip - rap, 4" 304-A 6,800 SY Seeding, Method B o. 37 ZSI5 C 0 .z8 /,904T 0.40 2 23 So 0.5 639. 105 LF Rock Berm 8. oa /,2 2. 8 40. 00 3/z .5o .5 9. /0 /. So /50 8 50 .50 375.on 5'oo. o 89/.75 S . 0O 2.00 2.0 20.0o 525.00 SOa.00 400. so 820.00 9.00 /.. So 2.5v 25.00 445 375 5o0 /O25 5.50 / /. 30 /9. 47z.5.. 642 250 LF Silt Fence 375.0, o.q, 779 670 200 LF Hay Bale Dike X06 GP 41 LF 2" Galv. Handrail ZO. g ZO.0o 2/,75 RICE BID TABULATION - srcer of 4 BID TABULATION PROJECT SPONSOR PROJECT MANAGER; ENGINEER Baker- Airklen City of Round Rock BID OPENING DATE 10/24/8g TIME 2:00 pm R Associates. Inc LOCATION - PROJECT= LOCATION: Tellabs Driva Fxtnnsinn CI? PROJECT NUMBER: CONTRACT NUMBER: ENGINEERS' ESTIMATE: $225,000 Round Rock, TX BID INVITATION NUMBER: - BIDDER= Gil r z co�� 3 CNASC.o ¢ e4,rKe s. --. E 0 BB —BID BOND - PROPOSAL. GUARANTEE, CTC— CERTIFRED CNECx - g8 p13 So .B ;2ECEJPT OF ADDENDA ACKNOWLEDGED' ✓ ✓ 1 ✓ °" ITEM QUANTITY UNIT ITEM DESCRIPTION UNIT PRICE AMOUNT UNIT p, l a AMOUNT UNIT PRE AMOUNT UNIT PRME AMOUNT UNIT PRICE Am T 824 7 Ea. - Traffic - Signs 135.00 945.00 /¢$. 0D /0,3G. co /50.00 /050.00 /50.0o /0 71 5o0 2 z _ 860E 1 LS Pavement Marking Paint 2s0 mo Zso. mo 275.00 275.00 400. 400, o-0 - ,00.CIO 300.00 2 75 27$ 508 J8 1 _. Ea. Storm Sewer Junction Box 1-7 57) Ad l75o.�2 z6cn� L3oo Z 3 o 0 . o0 2l; /��� / UfY O.vo Z700 ' Z7op - 7 - o 74 C_ i ir- 1 90,48 t. z5 /99,620.s=. 2o7, <S. 00 2/4 336. ZS 221,423.2 UUIT PRICE BID TAW LATIpN — SHEET 4 . of 4 BID TABULATION PROJECT SPONSOR City ty_ of Round Ro BID OPENING DATE: October 2 1989 PROJECT MANAGER: TIME 2:00 pm ENGINEER, Baker. - A ickl en & Assoc i a tes, Inc. LOCATION :Lnunril Chamherc Rnnnd Rock, TX PROJECT; Tel labs Drive Fxtensinn C.IP PROJECT NUMBER= ENGINEERS' ESTIMATE: $225,000 LOCATION: Round Rock, Texas CONTRACT NUMBER= 8ID INVITATION NUMBER: , BIDDER G .4P.IVL �XG. 7' .E/623 CST. 0. 4.57; A0.✓G 9 1/AYOE� 6a ,. eLG4 C4:.' DD - IND BOND PROPOSAL GUARANTEE' Dc- U 11:; I C mEcx OTC- CE CHECK RTIFED CHEC .Q gB / .3 Bs �23 /iECEIPT OF ADDENDA ACKNOWLEDGED= - / ,� , / / ITEM No. QUANTITY UNIT ITEM DESCRIPTION UNIT PRICE A^^a'NT UNIT PRICE AMOUNT UNIT UNIT AMOUNT UNIT MT AMOUNT UNIT AMOUNT 104 -0 1,300 5Y Remove Misc. Conc. /3.00 /bg'po 575 -7475 12.o0 /5,(000 /9.0a 2 '47a0 96,p /24 110 -C 3,800 CY Street Excavation 6 00 22 00 575 Z /8'Sil goo 3,0 6. so 74 70, /' yil',te 7s- 1 20 -8 250 LF Channel Excavation 1700 CZ25.0 p /Zo 2 3o' q.S p 275 3 0.00 7500 Sao 210 -A 9,085 SY Flex. Base - 11.5 -inch 4.2.0 3$/57 3 l'S 33432 5.00 45425 ,4.'2 44 .z 4 375, 7.S 210 -C 1,615 SY Flex. Base - 8 -inch 3,2o 3.25 2 . 55 4, 5 PO S /(off '15,40375 3 90 +.504.mo /(0-7.5.0 / (0fl 8� 3./o S. /O 5.75 S/3 2. ro 3.40 500G..ro 34 9,,5 (PyZo 2¢cc� .2 `d75.5o /Z,5 Z2 /6 9 .9c 3.ao 4.00 S.o0 S. 2.so 2. /4, 23,50s (o1Zo Zo R 75 850 /4, `XoZ -` 1 4 , 25 3. 3¢ 5394,10 3.4/ 7335544.IS 2 4,/+�i.00 4 .2017535.°4 4z...o 714.bo 2.75 /G45817s .4.75 3e875Q 4.00 3.45 2.g,5 4 2.25 4.0o 4,44.0 2'8 436.00.50 20 l33lo.Z,c' /3¢6,&45 Z(.00 340 -B 7,835 SY 2" H.M.A.C. 340 -C 1,530 SY 1 -1/2" H.M.A.C. 430 -B 4,175 LF Conc. Curb & Gutter 430 -D - 170 - LF Conc. Ribbon Curb 433 5,985 SF Conc. Driveways 2.25 z ./oo 33 4(os,ZS /(pgo 336 650 SF Conc. Valley Gutters uNIT NICE 810 TABULATION - SKET 1 OF 4 BID TABULATION PROJECT SPONSOR PROJECT MANAGER= ENGINEER Baker- Aickl Ci tr of ROU Rock BID OPENING DATE TIME 10/24/89 7:00 Dm 5 Associates Inc LOCATION' PROJECT= LOCATION: Tellabs Drive Extension GIP PROJECT NUMBER= CONTRACT NUMBER, ENGINEERS' ESTIMATE: $225,000 Round Rock, TX BID INVITATION NUMBER: BIDDER (.44P,7-4 L G. . x /3,6 ' 1[�Ei¢-S 6,8 /657/.JIAV.N6 eli5 9 ' H.4 voe,4,41 BB ✓ ° fi - C / 4 PROPOSAL GUARANTEE' CC — DE CC- CASHIERS R r:F E CHECK CTC —CERTIFIED UIEC% LS& ,/ J2ECEIPT OF ADDENDA ACKNOWLEDGED' ✓ L/ ITEM Na QUANTITY UNIT ITEM DESCRIPTION UNIT PRICE AMOUNT UNIT rR�E AMOUNT UNVT ice AMOUNT UNIT PRICE AMOUNT UNIT' PRICE AMOUNT 506 -M 3 Ea. Storm Sewer M.H. //. 3 4 So 7300 10900 /3oo 39.0o /( 495 0 '77Z Z3 I t.. 5 08 -8 1 Ea. Headwalls - 30" -Dia. Pipe Headwalls - 24" -Dia. Pipe /000 Boo /6080 1 24/0 '2200 _ 21070 /60,5'0 /9. ¢ 2 40,0 /00o /(p Q0 33 600 38 48zo 22 o0 5340 /009 2522 / /1 3ZZo 276,0 27600 3230 3r 3220 u 69 //.o /•oo 21. co 320n 5520 552c) 60444, 73(00 322 73 (on 60 2Z I o /� .;67(,.mo /500 400 170o 2300 2 1oo0 `Zr0o0 30,0 o.cc 22.00 28 -oc /Soo 20• 3400 46 52 2c,,,, C, Ooo 1Zoo — 2',o /3 32: //doe : / o 2500 q5o 3150 3760 397r /(,.5o 9.Z 253o /boo Z9oo S000 59 °0 (,300 37.so 79��/ 6, 25 ,.00 Zo4t2. % /b10 8130 ,25.50 iPJa 3$oa 3 10.0 o° 1 ,7. 2O,7o 7 /04 1604,0 47 .SFoo - 7( A 0O 31na n 75�£J� //7° 27 / /, sj 508 -J 2 '_Ea. 508- ISR 2 Ea. 5' Inlet, Recessed 508- I11012 2 Ea. ' 10 Inlet, Recessed 508- 115R 2 Ea. 15 Inlet, Recessed 508- 7W -10 1 Ea. 10' Dbl. Wind. Inlet, Recessed 508 )W -15 2 Ea. 15' Dbl. Wind. Inlet, Recessed Pipe, 12" RCP low 12 "RC 60 LF 510 -A 18 "RCF 130 476 LF LF Pipe, 18" RCP - - - - -- Pipe, RCP 010 -A 24_RCF ON T i CE al0 TABULAT■ON — SHEET 2 OF 4 BID TABULATION PROJECT SPONSOR. PROJECT MANAGER ENGINEER Baker- Airklrn - Cit y cf TOM) d Rock BID OPENING DATE 10/24/89 TIME 7:00 IA 8 Associates. Inc LOCATION PROJECT: LOCATION: Tellabv nrive Extension CIR PROJECT NUMBER CONTRACT NUMBER, ENGINEERS' ESTIMATE: $225,000 Round Rock, TX BID INVITATION NUMBER: BIDDER, , �Af /T.A.L- xc. 7. Eic -c,e_._ C. .4u.s>,,, /A- 0/.y 9. g v,95.) JO. &rya. 4, �g ea -DAD 0050 PROPOSAL GUARANTEE cc- CASHIERS 04E00 CTC- CERT CnECK ge 4 � � � �8 JECEIPT OF ADDENDA ACKNOWLEDGED. '/ 7 v/ ✓ y ITEM NO. QUANTITY UNIT ITEM DESCRIPTION UNIT PRICE AMOUNT UNIT P AMOUNT UNIT PRICE AMOUNT UNIY AMOUNT UNIT PRICE AMOUNT 510 -A 30 "RC 179 LF Pipe, 30" RCP 29./0 5Zo8' .% 3 1$ Z 30.00 do ,co 537o 34-4 o 5 44,00 (02On5 3784 33.0o 3(0.3o 59o - 3 /21.S2 30.45 47 o .5 ft, as 4o /6.z0 13 x2 13 ," 86 LF Pipe, 13 "x22" R.C.A.P. 3 7,00 510 -1 1 LS Adjust 10" Water Line /47o /490 5Z00 'S7oo 4Zoo 4Zoo 2750 275v -3400 34o0 510 -5 400 LF , Trench Safety System /0 ,/o0 ¢.00 /(p00 2.0o A OO, � 2.2-o g'o.00 boo 400 559 65 LF Conc. Box Culvert, 7'o3' Zis / 3995 Zoo /3 000 /o.� l 700 1/700 /$aoo / /70o 278 /4/7 391 -F 200 5Y Conc. Rip -rap, 4" ZS. go 5 /6ap 23.1) 4( 7S - oo 5000 35 -o0 7000 37.5o 7500 504 -A 6,800 SY Seeding, Method B r 3 5 ZG 52 • /56o 0.50 /0.00 34 oo / 05 0 045 / /.O 30&o 0 .4"3 /155 c.... co 2924• 1 4.0. 0.a 639 105 LF Rock Berm 4 50 89z.� /- S0 /449.00 642 250 LF Silt Fence /.50 375-00 9 2o Z3 07 /, 50 575 /54 3 /•30' 25 670 200 LF Hay Bale Dike Z.So 50o.ao 4,( qzo. oo 5 e'S. DSO 2.00 2 000 40 F20,13 2.¢51 7/.0o 49 !too 8(O /.or7Z3. 320 % //yy 430o 7 061E 41 LF 2" Galv. Handrail /1./0 455./0 43.80 BID TABULATION PROJECT SPONSOR' PROJECT MANAGER' ENGINEER Baker-Ai rkl City of Round Rock BID OPENING DATE: 10/24/89 TIME' 2:00 pm Pn & As - LOCATION'. PROJECT' LOCATION' TP11Rhs Drive. Fxtnnsinn CIP CONTRACT PROJECT NUMBER' NUMBER' e. C,yP,rA._,4 c ENGINEERS' ESTIMATE: f" 70Y $225,000 Round Rock, TX BID INVITATION NUMBER: BIDDER V. , 7/,.zs a. AvsT,,Jfi✓ Co G. ,o EL-4,4 BB —BID BONO PROPOSAL. GUARANTEE DD -CA9W$ Ou(Co CTC —CERTIFIED rl'ECO - 55 68 / Rp , 5 - B,s JZECEIPT OF ADDENDA ACKNOWLEDGED' ✓ ✓ V ✓ ITEM Na ClWiTITY UNIT ITEM DESCRIPTION UNIT PRICE AMOUNT UNIT rNICE . AMOUNT UNIT PRICE AMOUNT UM7 PfaCE AMOUNT UNIT Pam AMOUNT 824 7 Ea. - Traffic Signs / , oa J0 350 ° —° - Z4-So /SO.00 I os O /,SD /050 / /0$5 860E 1 LS Pavement Marking Paint 35oao /9 00 3,9 co /9 00 920 35 DO 9 20 500 Soo•oo 7Soo .S00.00 Zoo 30o_: 3500 300 • 3.S,0o 290 3900 29a 39 00 JB8 1 •- Ea. Storm Sewer Junction Box 227, Cvo /. co 2 P ' 1 7 7. 85 2 (a5 504 s C 272 335,50 2710,/28:.30 DATE: January 23, 1990 SUBJECT: City Council Meeting, January 25 -. 1990 ITEM: 12A. Consider a resolution authorizing the Mayor to enter into a contract for the construction of the Tellabs Drive Extension. STAFF RESOURCE PERSON: JIM MUSE STAFF RECOMMENDATION: On October 24, 1989 bids were opened for the construction of,Tellabs Drive. Garey Construction was the lowest and best bid at $190,481.25. Attached is the bid tabulation. Staff recommends the award to Garey Construction for $190,481.25