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Home My WebLink About03_Sewer Utility Material SubmittalsTo: DATE: 1/15/2021 Attention:PHONE: Project: We are enclosing: Submittal Application Supplier Sewer Utility Material Sanitary Sewer Core and Main (A) For approval or corrections - Return (B) For review and comment (C) Approved as corrected - Return (D) Approved - Work may proceed (E) Revise and resubmit - Work may proceed (F) Revise and resubmit - Work MAY NOT proceed ITEM #DESCRIPTION ACTION REQD. Barghausen Consulting Engineers, Inc. SUBMITTAL #03 - Sewer Utilities 18215 72nd Ave S Kent, WA 98032 Trenton Skoda Forest Terrace (Pulte Homes) Renton, WA Product 1 Misc. Product Data Cut Sheets A ACTION REQUIRED HOS BROS. CONSTRUCTION PO BOX 1788 WOODINVILLE, WA 98072 425-481-5569-PHONE 425-481-6634-FAX BENEFITS JM Eagle’s Ring-Tite Gravity Sewer pipe features an improved design for re-serve strength and stiffness to increase load-bearing capacity, maximizing sewer system capacity at a reasonable cost. • It is unaffected by the fluids found in ordinary domestic sewage; sewer gasses and the sulfuring acid generated by the completion of the hydrogen sulfide cycle; and corrosive soils both alkaline and acidic. • Maintains performance against tuberculation, corrosion and external galvanic soil conditions without lining wrapping, coating or cathodic protection. • It resists abrasion, gouging and scouring far better than most common piping materials. • Its interiors stay smooth over long years of service while maximizing system capacity, allowing for savings in pumping costs, as well as savings on the size of the pipe required. • The light weight of the pipe reduces manpower required for installation. • It can be field-cut with a power saw or ordinary handsaw and be beveled without the use of expensive or complicated machinery. • Gasketed tee and wye saddles for tapping into previously installed PVC sewer lines eliminate the need for field solvent welding. DESCRIPTION JM Eagle’s Gravity Sewer pipe ASTM D3034 is available in SDR 35 and SDR 26 in 4- to 15-inch diameters and ASTM F679 is available in PS 46 and PS 115 in 18- to 48-inch diameters. It comes in 14- and 20-foot lengths. The pipe can be directed to most existing sewer equipment. It can also be con-nected to IPS cast- or ductile-iron fittings with the appropriate adapters and/or tran-sition gaskets. JM Eagle Gravity Sewer pipe comes with Ring-Tite joints with locked-in gaskets. Joints meet or exceed ASTM D3212 for joint tightness, including a 22-inch Hg vac-uum and a 25-foot head pressure test. APPLICATIONS JM Eagle’s Ring-Tite PVC Gravity Sewer pipe is suitable for conveying domes-tic sanitary sewage, as well as certain industrial wastes. Building essentials for a better tomorrow GRAVITY SEWER MEETS ASTM D3034 AND F679. PLEASE CONTACT YOUR JM EAGLE REPRESENTATIVE OR VISIT WWW.JMEAGLE.COM FOR MORE INFORMATION.Revised 5/14/2012. This information may have been updated. Please download the latest version at www.jmeagle.com/onesheets. JM EAGLE’S RING-TITE JOINT OFFERS ADDITIONAL BENEFITS. • Seated in a deep groove, the flexible elastomeric Rieber gasket provides a tight seal that protects the line from shock, vibration and earth movement, and compensates for expansion and contraction of the pipe lengths. • Quick and easy to assemble with a simple push, there’s no field mixing or application of cement. • The joint remains tight under normal operating conditions. Building essentials for a better tomorrow GRAVITY SEWER SUBMITTAL AND DATA SHEET PIPE SIZE (IN) AVERAGE O.D.(IN) NOM. I.D. (IN) MIN. T. (IN) MIN. E (IN) APPROX. D9(IN) APPROX. WEIGHT (LBS/FT) SDR 35 (PS46) ASTM D3034 4 4.215 3.975 0.120 3.50 4.695 1.05 6 6.275 5.915 0.180 4.25 6.995 2.36 8 8.400 7.920 0.240 4.75 9.360 4.24 10 10.500 9.900 0.300 6.00 11.700 6.64 12 12.500 11.780 0.360 6.25 13.940 9.50 15 15.300 14.426 0.437 7.25 17.048 14.19 SDR 26 (PS115) ASTM D3034 4 4.215 3.891 0.162 3.50 4.863 1.40 6 6.275 5.793 0.241 4.25 7.239 3.11 8 8.400 7.754 0.323 4.75 9.692 5.63 10 10.500 9.692 0.404 6.00 12.116 8.84 12 12.500 11.538 0.481 6.25 14.424 12.56 15 15.300 14.124 0.588 7.25 17.652 18.90 PS46, ASTM F679 18 18.701 17.629 0.499 8.00 20.845 21.43 21 22.047 20.783 0.588 9.50 24.575 29.88 24 24.803 23.381 0.661 9.60 27.647 38.96 27 27.953 26.351 0.745 10.10 31.157 49.47 30 CIOD 32.000 30.194 0.853 16.75 35.612 64.18 36 CIOD 38.300 36.042 1.021 19.02 42.816 93.00 42 CIOD 44.500 41.948 1.187 22.43 49.604 — 48 CIOD 50.800 47.888 1.355 24.78 56.624 — PS115, ASTM F679 18 18.701 17.261 0.671 8.00 21.581 28.49 21 22.047 20.349 0.791 9.50 25.443 — 24 24.803 22.891 0.889 9.60 28.627 — 27 27.953 25.799 1.002 10.10 32.261 — 30 CIOD 32.000 29.070 1.148 16.75 36.348 — 36 CIOD 38.300 35.464 1.373 19.02 45.438 — 42 CIOD 44.500 41.072 1.596 22.43 51.356 — 48 CIOD 50.800 46.886 1.822 24.78 58.628 — Product Standard: Pipe Compound: Gasket: Integral Bell Joint: Pipe Stiffness: Pipe Length: Installation: ASTM 3034 (4”–15”) ASTM F679 (18”–48”) ASTM D1784 Cells Class 12454 or 12364 ASTM F477 ASTM D3212 ASTM D2412 F/Y = 46 PSI or 115 PSI 14 or 20 feet laying length ASTM D 2321 JM Eagle™ Installation Guide 9 9 Revised 5/14/2012. This information may have been updated. Please download the latest version at www.jmeagle.com/onesheets. CRESLINE-NORTHWEST, LLC. CORPORATE HEADQUARTERS: 600 CROSS POINTE BOULEVARD · EVANSVILLE, IN 47715 · TELEPHONE (812) 428-9300 PLANT: 223 MAURIN ROAD · CHEHALIS, WA 98532 · TELEPHONE (360) 740-0708 · FAX (360) 740-0721 www.cresline.com PVC SDR 35 D-3034 SEWER PIPE SOLVENT WELD CNWPVC-353034SW MARCH, 2012 PLEASE ORDER BY PART NUMBER. WEIGHT FEET PERCENT MIN. 10' BELLED END MIN. PER PER OF BELL PART SIZE O.D. I.D. WALL 100' PALLET TL LENGTH NO. SOLVENT WELD PVC-SEWER SDR 35 ASTM D-3034 SOLID & PERFORATED GREEN WEIGHT FEET PERCENT MIN. 20' BELLED END MIN. PER PER OF BELL PART SIZE O.D. I.D. WALL 100' PALLET TL LENGTH NO. SOLVENT WELD PVC-SEWER SDR 35ASTM D-3034SOLID &PERFORATEDGREEN WEIGHT FEET PERCENT MIN.10' BELLED END MIN. PER PER OF BELL PART SIZE O.D. I.D. WALL 100' PALLET TL LENGTH NO.SOLVENT WELDPVC-SEWERSDR 35 ASTM D-3034 SOLID & PERFORATED WHITE WEIGHT FEET PERCENT MIN. 20' BELLED END MIN. PER PER OF BELL PART SIZE O.D. I.D. WALL 100' PALLET TL LENGTH NO. SOLVENT WELD PVC-SEWER SDR 35 ASTM D-3034 SOLID & PERFORATED WHITE REFER TO ASTM D-2321 FOR PROPER INSTALLATION PROCEDURES OF SDR-35 SEWER PIPE. INSTALL AS DIRECTED BY ASTM D-2321. PERFORATIONS ARE 2 ROWS OF ½" HOLES ON 5" CENTERS 120° APART. 53113 4" PERF 4.215 3.975 .120 106.51 1200 6.6 3.5 53121 106.51 1200 6.6 3.54" SOLID 4.215 3.975 .120 53179 6" PERF 6.275 5.915 .180 238.40 350 4.1 4.0 53196 238.40 350 4.1 4.06" SOLID 6.275 5.915 .180 53112 4" PERF 4.215 3.975 .120 106.51 900 4.2 3.5 53119 106.51 900 4.2 3.54" SOLID 4.215 3.975 .120 4" SOLID 4.215 .120 106.51 6" SOLID 6.275 .180 238.40 4" PERF 6" PERF 900 900 350 350 4.215 6.275 3.975 4.2 4.2 4.1 4.1 3.5 3.5 4.0 4.0 53115 53120 53180 53195 4" PERF 4.215 3.975 106.51 238.40 3.975 5.915 5.915 .120 .180 .120 106.51 1200 6.6 238.40 700 9.76" SOLID 6.275 5.915 6" PERF 6.275 5.915 .180 .180 238.40 700 9.7 4" SOLID 4.215 3.975 .120 106.51 1200 6.6 3.5 53118 3.5 53122 4.0 53183 4.0 53197 6" SOLID 6.275 5.915 .180 238.40 700 9.7 4.0 53184 6" PERF 6.275 5.915 .180 238.40 700 9.7 4.0 53198 NOTES: OLYMPIC FOUNDRY INC. 8" X 4" LOCKING CLEAN-OUT RING & COVER MATL: Cast Iron ASTM A48, CL30 RATING: H-20 PART NO. M1007 D/T APPROX WT: Ring - 42 Lbs, Cover 14 - Lbs REV: A DATE: 7/9/2003 New border REV ADOCUMENT APPROVED BY: DATE: DWN: CL DATE: 7/9/2003 TOLERANCE XX +- .1 XXX +- .06 XXXX +- .030 < +- 2 DEG REV: DATE: CHKD: CL DATE: 7/9/2003 DWG #: M1007 DT SCALE: N/A SHEET: 1 OF 1 Boltless restrained joint systems • Multiple design options available from 3”–36” • Fast and easy installation • 350 psi pressure rating • Independently tested mcwaneductile.com MCWANE DUCTILEIRON PIPE TYTON® JOINT PIPE Pipe Size In. PressureClasspsi NominalThicknessIn. OD* In. Wt. of BarrelPer Ft. † Lb. Tyton® Joint Wt. of Bell Lb. Wt. Per Lgth.† Lb. Avg. Wt. Per Ft.‡ Lb.3 350 0.25 3.96 8.90 7.00 185 9.2043500.25 4.80 10.90 9.00 225 11.30 6 350 0.25 6.90 16.00 11.00 300 16.60 8 350 0.25 9.05 21.10 17.00 395 22.00 10 350 0.26 11.10 27.10 24.00 510 28.40 12 350 0.28 13.20 34.80 29.00 655 36.40 14 250 0.28 15.30 40.40 45.00 770 42.90 300 0.30 15.30 43.30 45.00 825 45.803500.31 15.30 44.70 45.00 850 47.20 16 250 0.30 17.40 49.30 54.00 940 52.30 300 0.32 17.40 52.50 54.00 1000 55.50 350 0.34 17.40 55.80 54.00 1060 58.80 18 250 0.31 19.50 57.20 59.00 1090 60.50 300 0.34 19.50 62.60 59.00 1185 65.90 350 0.36 19.50 66.20 59.00 1250 69.50 20 250 0.33 21.60 67.50 74.00 1290 71.60 300 0.36 21.60 73.50 74.00 1395 77.60 350 0.38 21.60 77.50 74.00 1470 81.60 24 200 0.33 25.80 80.80 95.00 1550 86.10 250 0.37 25.80 90.50 95.00 1725 95.80 300 0.40 25.80 97.70 95.00 1855 103.00 350 0.43 25.80 104.90 95.00 1985 110.20 30** 150 0.34 32.00 103.50 139.00 2000 111.202000.38 32.00 115.50 139.00 2220 123.20 250 0.42 32.00 127.50 139.00 2435 135.20 300 0.45 32.00 136.50 139.00 2595 144.20 350 0.49 32.00 148.40 139.00 2810 156.10 36** 150 0.38 38.30 138.50 184.00 2675 148.70 200 0.42 38.30 152.90 184.00 2935 163.10 250 0.47 38.30 170.90 184.00 3260 181.10 300 0.51 38.30 185.30 184.00 3520 195.50 350 0.56 38.30 203.20 184.00 3840 213.40 † Including bell; calculated weight of pipe rounded off to the nearest 5 lb. ‡ Including bell; average weight per foot, based on calculated weight of pipe before rounding. * Tolerances of OD of spigot end: 3–12 in. = +0.06 in. & -0.06 in. ; 14–24 in. = +0.05 in. & -0.08 in. ; 30–36 in. = +0.08 in. & -0.06 in. ** Fastite® Joint STANDARD DIMENSIONS AND WEIGHTS OF 3” THROUGH 36” PUSH-ON JOINT DUCTILE IRON PIPE Tyton® Joint Pipe Size In. Pipe Thickness In. Outside Diameter *Dimensions In. From To In.A B 3 .25 .40 3.96 5.80 3.00 4 .25 .41 4.80 7.10 3.156.25 .43 6.90 8.63 3.38 8 .25 .45 9.05 10.94 3.69 10 .26 .47 11.10 13.32 3.7512.28 .49 13.20 15.06 3.75 14 .28 .51 15.30 17.80 5.00 16 .30 .52 17.40 19.98 5.0018.31 .53 19.50 22.00 5.00 20 .33 .54 21.60 24.12 5.25 24 .33 .56 25.80 28.43 5.50 30 .34 .63 32.00 35.40 6.55 36 .38 .73 38.30 41.84 7.00 *Nominal laying length is 18 ft. Pipe Size In. Pipe Thickness In. Outside Diameter *Dimensions In.Bolts Bell Weight Lb. Gland** Bolts Gasket Weight Lb.From To In.B J K1 K2 No.Size In.Length In. 3 .25 .40 3.96 2.50 6.19 7.62 7.69 4 5/8 3 11 7 4 .26 .41 4.80 2.50 7.50 9.06 9.12 4 3/4 3-1/2 16 10 6 .25 .43 6.90 2.50 9.50 11.06 11.12 6 3/4 3-1/2 18 16 8 .27 .45 9.05 2.50 11.75 13.31 13.37 6 3/4 4 24 25 10 .29 .47 11.10 2.50 14.00 15.62 15.62 8 3/4 4 31 30 12 .31 .49 13.20 2.50 16.25 17.88 17.88 8 3/4 4 37 40 14 .33 .51 15.30 3.50 18.75 20.25 20.25 10 3/4 4-1/2 61 45 16 .34 .52 17.40 3.50 21.00 22.50 22.50 12 3/4 4-1/2 74 55 18 .35 .53 19.50 3.50 23.25 24.75 24.75 12 3/4 4-1/2 85 65 20 .36 .54 21.60 3.50 25.50 27.00 27.00 14 3/4 4-1/2 98 85 24 .38 .56 25.80 3.50 30.00 31.50 31.50 16 3/4 5 123 105 * Nominal laying length is 18 ft. ** Weight shown for regular grey cast iron follower gland, corton bolts and rubber gasket. Pipe Size In. Thickness A PipeO.D. B RetainerO.D. Full Length Weight - Lb.**SafeEndPullLb. Class (A21.51)T AsShipped Under Water Full ofAir Full ofWater655.40 6.90 13.88 545 240 465 50,000 8 55 .42 9.05 16.63 770 240 655 70,000 10 55 .44 11.10 19.13 1005 220 860 95,000 12 55 .46 13.20 22.00 1270 155 1080 120,000 14 56 .51 15.30 24.50 1655 160 1410 145,000 16 56 .52 17.40 27.00 1990 45 1685 165,000 18 56 .53 19.50 30.00 2375 -70 2015 195,000 58*.59 2560 110 2170 20 56 .54 21.60 32.75 2810 -200 2375 210,000 59*.63 3110 100 2635 24 56 .56 25.80 38.25 3700 -620 3110 260,000 62*.74 4415 95 3715 30 58 .71 32.00 46.25 5855 -900 4920 335,000 61*.83 6435 -180 5360 36 57 .78 38.30 54.25 8145 -1300 6880 400,000 59*.88 8725 -725 7330 * Thickness required to overcome buoyancy. ** Weights listed are for 18’–0” laying lengths. Nominal full lengths vary by size. Pipe, Bell, Ball and Retainer are ductile iron. Dimensions and weights are subject to manufacturing tolerances. 6 in. – 24 in. pressure rating: 350 psi 30 in. –36 in. pressure rating: 250 psi MECHANICAL JOINT PIPE BALL AND SOCKET JOINT PIPE B 15° Max. A T TR FLEX® RESTRAINED JOINT PIPE Pipe Size In. *Pressure Ratingpsi A B C # of D.I. LockingSegments # of Rubber Segments Retainers Max Deflection Degrees PulloutIn.PIPE In.In. 4 350 4.80 7.25 4.84 2 1 5 0.03 6 350 6.90 9.52 5.27 2 1 5 0.04 8 350 9.05 11.93 5.82 2 1 5 0.04 10 350 11.10 14.37 6.03 2 1 5 0.05 12 350 13.20 16.68 6.30 4 2 5 0.06 14 350 15.30 19.16 7.75 4 2 3-1/4 0.05 16 350 17.40 21.46 7.95 4 2 3-1/4 0.05 18 350 19.50 23.76 8.19 4 2 3 0.05 20 350 21.60 26.04 8.40 4 2 2-1/2 0.05 24 350 25.80 30.61 8.86 8 4 2-1/4 0.05 30 250 32.00 36.88 10.28 8 4 1-3/4 0.05 36 250 38.30 43.85 10.87 8 4 1-1/2 0.05 *The TR FLEX® Restrained Joint has a working pressure rating equivalent to the working pressure rating of the parent pipe with a maximum working pressure rating of 350 psi for 4 in. through 24 in. and 250 psi for 30 in. through 36 in. NOTE: These deflections are based on joints with nominal dimensions. CAB CAB CAB CAB30”–36” 4”–24” Pipe Size In. *Pressure Rating psi Nominal ThicknessIn. Laying Conditions Type 1 Type 2 Type 3 Type 4 Type 5 Trench Trench Trench Trench Trench Maximum depth of cover ‡–ft 3 350 0.25 78 88 99 100§100§ 4 350 0.25 53 61 69 85 100§ 6 350 0.25 26 31 37 47 65 8 350 0.25 16 20 25 34 50 10 350 0.26 11**15 19 28 45 12 350 0.28 10**15 19 28 44 14 250 0.28 †† 11**15 23 36 300 0.30 ††13 17 26 42 350 0.31 ††14 19 27 44 16 250 0.30 †† 11**15 24 34 300 0.32 ††13 17 26 39 350 0.34 ††15 20 28 44 18 250 0.31 †† 10**14 22 31 300 0.34 ††13 17 26 36 350 0.36 ††15 19 28 41 20 250 0.33 ††10 14 22 30 300 0.36 ††13 17 26 35 350 0.38 ††15 19 28 38 24 200 0.33 †† 8**12 17 25 250 0.37 ††11 15 20 29 300 0.40 ††13 17 24 32 350 0.43 ††15 19 28 37 30 150 0.34 ††--9 14 22 200 0.38 †† 8**12 16 24 250 0.42 ††11 15 19 27 300 0.45 ††12 16 21 29 350 0.49 ††15 19 25 33 36 150 0.38 ††--9 14 21 200 0.42 †† 8**12 15 23 250 0.47 ††10 14 18 25 300 0.51 ††12 16 20 28 350 0.56 ††15 19 24 32 ‡ An allowance for a single H-20 truck with 1.5 impact factor is included for all depths of cover. § Calculated maximum depth of cover exceeds 100 ft. (30.5 m). ** Minimum allowable depth of cover is 3 ft. (0.9 m). †† For pipe 14 in. (350 mm) and larger, consideration should be given to the use of laying conditions other than Type 1. RATED WORKING PRESSURE AND MAXIMUM DEPTH OF COVER Thrust-Lock™ Boltless Restrained Joint Pipe Size In. *Pressure Ratingpsi Deflection A B C Degrees Inches in 18ft Pipe O.D.Bell O.D.Spigot Socket 6 350 4 15 6.90 10.187 5.01 8 350 4 15 9.05 13.187 5.57 10 350 4 15 11.10 15.187 5.88 12 350 4 15 13.20 17.250 6.13 14 350 4 15 15.30 20.625 7.63 16 350 4 15 17.40 22.375 7.88 18 350 4 15 19.50 25.125 8.13 20 350 4 15 21.60 27.250 8.38 24 350 4 15 25.80 31.562 8.63 30 250 2 7 32.00 39.06 10.53 *The THRUST-LOCK™ Restrained Joint has a working pressure rating equivalent to the working pressure rating of the parent pipe with a maximum working pressure rating of 350 psi for 6 in. through 24 in. and 250 psi for 30 in. NOTE: These deflections are based on joints with nominal dimensions. THRUST-LOCK™ BOLTLESS RESTRAINED JOINT PIPE Pipe Size In. *Pressure Rating psi Deflection A B Degrees Inches in 18ft Pipe O.D. Retainer O.D. 6 350 4 15 6.90 11.75 8 350 4 15 9.05 14.38 10 350 4 15 11.10 16.75 12 350 4 15 13.20 19.13 14 350 3 11 15.30 21.75 16 350 3 11 17.40 24.00 18 350 3 11 19.50 26.38 20 350 3 11 21.60 28.63 24 350 3 11 25.80 33.75 30 250 3 11 32.00 40.13 * In the 14 in. and larger sizes, pressure rating is limited to the rating of the pipe barrel thickness selected. Dimensions subject to manufacturing tolerances. SUPER-LOCK® RESTRAINED JOINT PIPE 6”–30” B A TYTON® JOINT PIPE Sizes 6”–24” FASTITE® JOINT PIPE 30” Size Pipe Size In.Bolt Diameter In.Nut Across Flats In.Wrench Length In.Torque Range Foot Lbs. 3 5/8 1-1/16 8 45 to 60 4–24 3/4 1-1/14 10 75 to 90 Step 1. Thoroughly clean out the bell with special attention to the gasket recess. Remove any foreign material or excess paint. Clean the spigot or beveled plain end and remove any sharp edges with a standard file. Step 2. After making sure that the correct gasket is being used, insert it into the recess in the bell with the small end of the gasket facing the bell face. Step 3. Apply lubricant to the inside surface of the gasket, making sure that the entire surface is coated. Apply a generous coating of lubricant to the beveled portion of the plain end. Step 4. Guide the plain end into the bell and, while maintaining straight alignment, push the plain end into the bell socket. Once the joint is assembled, necessary deflection can be accomplished. When assembly is complete, the bell face should be aligned between the two white depth rings, for Tyton® Joints. Fastite® Joints have only 1 assembly stripe. MECHANICAL JOINT ASSEMBLY INSTRUCTIONS Step 1. Clean the bell socket and spigot or plain end. Lubricate both the gasket and plain end by brushing an approved pipe lubricant. Step 2. Place the gland on the plain end with the lip extension toward the plain end. Place the gasket on the plain end with the narrow edge facing the plain end. Step 3. Insert the plain end into the bell and press the gasket into the bell recess. Push the gland toward the socket and center it around the pipe with the gland lip against the gasket. Step 4. Insert and tighten the bolts. It is important to maintain the same distance between the gland and the bell face at all times. This is best done by alternating side to side and top to bottom, while tightening the bolts. Note: Achieving the recommended bolt torque, particularly with large diameter pipe, may require repeating the process up to 5 times or more. Recommended bolt torque ranges are as follows: SUPER-LOCK® ASSEMBLY INSTRUCTIONS Step 1. Remove hook bolts securing retainer to plain end. Clean plain end of pipe. Clean out any dirt behind retainer lugs. Lubricant should be applied to the beveled nose. Step 2. Assemble the joint in accordance with Clow Assembly Instructions (See Table A on page 13). Make certain that the bell is clean prior to gasket insertion. Be sure that the correct gasket is used. Step 3. Guide plain end into Super-Lock® bell and provide reasonably straight alignment. “Make” joint by pushing the plain end into the bell. A jack or come-a-long may also be used to pull the plain end into the bell. Position retainer so that the recesses line up with the lugs on the bell. Slide retainer over bell and rotate until the lugs on the bell and the retainer line up. Step 4. At drilled hole on retainer O.D., insert retainer lock in recess formed by lugs on bell and retainer. Insert roll pin in drilled hole and drive flush with retainer O.D. Step 5. Take any necessary deflection after joint is completely assembled. Caution: do not over deflect the joint beyond the maximum deflection column specified on page 2 or subject the joint to bending stress to obtain additional deflection. TR FLEX® RESTRAINED JOINT ASSEMBLY INSTRUCTIONS Step 1. (4”–10”) Lay pipe such that one of the bell slots is accessible. (12”– 20”) Lay pipe such that both of the bell slots are accessible, in the horizontal position if possible. (24”– 36”) Lay pipe such that all four of the bell slots are accessible, in the diagonal position if possible. Step 2. Clean the bell socket and insert gasket. Step 3. Clean the spigot end to the assembly stripes. Step 4. Lubricate the exposed surface of the gasket and pipe spigot end back to the weld bead. Step 5. Make a normal push-on joint assembly, completely homing the pipe until the first assembly strip is in the bell socket. Keeping the joint in straight alignment during the assembly process. Step 6. (4”–10”) Insert the right-hand locking segment into a bell slot and slide the segment clockwise around the pipe. (12”– 36”) Insert lower locking segment into a bell slot and slide the segment around the pipe. Step 7. (4”–10”) Insert left-hand locking segment into the bell slot and slide the segment counter- clockwise around the pipe. (12”– 36”) Insert upper locking segment into the same bell slot and rotate around the pipe. Step 8. (4”–10”) Hold the segments apart and wedge the rubber retainer into the slot between the two locking segments. (12”– 36”) Hold the upper segment in place and wedge the rubber retainer into the slot between the two locking segments. Step 9. (4”–10”) None. (12”– 20”) Repeat steps 6–8 for other slot. Make sure that all 4 locking segments and 2 rubber retainers are securely in place. (24”– 36”) Repeat steps 6–8 for other slot. Make sure that all 8 locking segments and 4 rubber retainers are securely in place. Step 10. Extend the joint to remove the slack in the locking segment cavity. Joint extension is necessary to attain the marked laying length on the pipe and to minimize growth or extension of the line as it is pressurized. Step 11. Set the joint deflection as required. NOMINAL THICKNESS FOR STANDARD PRESSURE CLASSES OF DUCTILE IRON PIPE Outside DiameterIn. Pressure Class* Size In. 150 200 250 300 350 Normal Thickness — in. 3 3.96 ————0.25**4 4.80 ————0.25** 6 6.90 ————0.25**8 9.05 ————0.25**10 11.10 ————0.26 12 13.20 ————0.281415.30 ——0.28 0.30 0.311617.40 ——0.30 0.32 0.34 18 19.5 ——0.31 0.34 0.362021.60 ——0.33 0.36 0.38 24 25.80 —0.33 0.37 0.40 0.43 30 32.00 0.34 0.38 0.42 0.45 0.493638.30 0.38 0.42 0.47 0.51 0.56 * Pressure Classes are defined as the rated water pressure of the pipe in psi. The thicknesses shown are adequate for the rated water working pressure plus a surge allowance of 100 psi. Calculations are based on a minimum yield strength of 42,000 and a 2.0 safety factor times the sum of the working pressure and 100 psi surge allowance. **Calculated thicknesses for these sizes and pressure ratings are less than those shown above. Presently, these are the lowest nominal thicknesses available in these sizes. SIZE (Inches) 3–8 10–12 14–36 CASTING TOLERANCES (Inches) -0.05 -0.06 -0.07 NOTE: Per ANSI/AWWA C150/A21.50 the thicknesses above include the 0.08 in. service allowance and the casting tolerance listed below by size ranges: THRUST-LOCK™ RESTRAINED JOINT ASSEMBLY INSTRUCTIONS Step 1. Ring Installation. Put lock ring on the spigot end of the pipe. Pry the lock ring over the weldment. Use the hammer to tap the cover. Lock ring installation is complete. Step 2. Clean the Bell and Spigot. Thoroughly clean out the bell with special attention to the gasket recess. Remove any foreign material or excess paint. Clean the spigot end and remove any sharp edges. Step 3. Insert the gasket into the recess in the bell with the small end of the gasket facing the bell face. Step 4. Lubricate the Bell and Spigot. Apply lubricant to the inside surface of the gasket. Apply a generous coating of lubricant to the spigot end. Step 5. Insert Pipe. Guide the spigot end into the bell and, while maintaining straight alignment, push the pipe into the bell socket. Step 6. Insert Lock Ring. Push lock ring into the bell. Step 7. Rotate the lock ring until the lugs align. Use a hammer to tap the ring if required. Install the anti-rotation wedges at 3 and 9 o’clock if the pipe is being used inside of a casing. Deflect the joint if desired. TYTON® AND FASTITE® PUSH-ON JOINTS ASSEMBLY INSTRUCTIONS DIMENSIONS AND WEIGHTS FOR SPECIAL CLASSES OF PUSH-ON DUCTILE IRON PIPE Pipe SizeIn. ThicknessClass Nominal ThicknessIn. OD*In. Wt. of BarrelPer Ft. † Lb. Tyton® Joint Wt. ofBell Lb.Wt. PerLgth.† Lb.Avg. Wt.Per Ft.‡ Lb. 3 52 0.28 3.96 9.9 7 185 10.33540.34 3.96 11.8 7 220 12.23560.40 3.96 13.7 7 255 14.14510.26 4.80 11.3 9 210 11.84520.29 4.80 12.6 9 235 13.14530.32 4.80 13.8 9 255 14.34540.35 4.80 15 9 280 15.54560.41 4.80 17.3 9 320 17.86500.25 6.90 16 11 300 16.66510.28 6.90 17.8 11 330 18.46520.31 6.90 19.6 11 365 20.26530.34 6.90 21.4 11 395 22.06540.37 6.90 23.2 11 430 23.86550.40 6.90 25 11 460 25.66560.43 6.90 26.7 11 490 27.38500.27 9.05 22.8 17 425 23.78510.30 9.05 25.2 17 470 26.18520.33 9.05 27.7 17 515 28.68530.36 9.05 30.1 17 560 31.08540.39 9.05 32.5 17 600 33.48550.42 9.05 34.8 17 645 35.78560.45 9.05 37.2 17 685 38.110500.29 11.10 30.1 24 565 31.410510.32 11.10 33.2 24 620 34.510520.35 11.10 36.2 24 675 37.510530.38 11.10 39.2 24 730 40.510540.41 11.10 42.1 24 780 43.410550.44 11.10 45.1 24 835 46.410560.47 11.10 48 24 890 49.312500.31 13.20 38.4 29 720 40.012510.34 13.20 42 29 785 43.612520.37 13.20 45.6 29 850 47.212530.40 13.20 49.2 29 915 50.812540.43 13.20 52.8 29 980 54.412550.46 13.20 56.3 29 1040 57.912560.49 13.20 59.9 29 1105 61.514500.33 15.30 47.5 45 900 50.014510.36 15.30 51.7 45 975 54.214520.39 15.30 55.9 45 1050 58.414530.42 15.30 60.1 45 1125 62.614540.45 15.30 64.2 45 1200 66.714550.48 15.30 68.4 45 1275 70.914560.51 15.30 72.5 45 1350 75.016500.34 17.40 55.8 54 1060 58.816510.37 17.40 60.6 54 1145 63.616520.40 17.40 65.4 54 1230 68.416530.43 17.40 70.1 54 1315 73.116540.46 17.40 74.9 54 1400 77.916550.49 17.40 79.7 54 1490 82.716560.52 17.40 84.4 54 1575 87.418500.35 19.50 64.4 59 1220 67.718510.38 19.50 69.8 59 1315 73.118520.41 19.50 75.2 59 1415 78.518530.44 19.50 80.6 59 1510 83.918540.47 19.50 86 59 1605 89.318550.50 19.50 91.3 59 1700 94.618560.53 19.50 96.7 59 1800 100.020500.36 21.60 73.5 74 1395 77.620510.39 21.60 79.5 74 1505 83.620520.42 21.60 85.5 74 1615 89.620530.45 21.60 91.5 74 1720 95.620540.48 21.60 97.5 74 1830 101.620550.51 21.60 103.4 74 1935 107.520560.54 21.60 109.3 74 2040 113.424500.38 25.80 92.9 95 1765 98.224510.41 25.80 100.1 95 1895 105.424520.44 25.80 107.3 95 2025 112.624530.47 25.80 114.4 95 2155 119.724540.50 25.80 121.6 95 2385 126.924550.53 25.80 128.8 95 2415 134.124560.56 25.80 135.9 95 2540 141.230500.39 32.00 118.5 139 2270 126.230510.43 32.00 130.5 139 2490 138.230520.47 32.00 142.5 139 2705 150.230530.51 32.00 154.4 139 2920 162.130540.55 32.00 166.3 139 3130 174.030550.59 32.00 178.2 139 3345 185.930560.63 32.00 190.0 139 3560 197.736500.43 38.30 156.5 184 3000 166.736510.48 38.30 174.5 184 3325 184.736520.53 38.30 192.4 184 3645 202.636530.58 38.30 210.3 184 3970 220.536540.63 38.30 228.1 184 4290 238.336550.68 38.30 245.9 184 4610 256.136560.73 38.30 263.7 184 4930 273.9 †Including bell; calculated weight of pipe rounded off to the nearest 5 lb. ‡Including bell; average weight per foot, based on calculated weight of pipe before rounding. *Tolerances of OD of spigot end; 3–12 in. ±0.06 in., 14–24 in. +0.05 in., -0.08 in., 30–36 in. +0.08 in., -0.06 in. LAYING CONDITIONS Type 1*Flat-bottom trench.† Loose backfill. Type 3Pipe bedded in 4 in. (100 mm) minimum of loose soil.++ Backfill lightly consolidated to top of pipe. Type 5 Pipe bedded in compacted granular material to centerline of pipe. Compacted granular or select material++ to top of pipe. (Approximately 90 percent Standard Proctor, AASHTO T-99.) Type 2Flat-bottom trench.† Backfill lightly consolidated to centerline of pipe. Type 4Pipe bedded in sand, gravel, or crushed stone to depth of 1/8 pipe diameter, 4 in. (100 mm) minimum. Backfill compacted to top of pipe. (Approximately 80 percent Standard Proctor, AASHTO T-99.) * For 14 in. (355-mm) and larger pipe, consideration should be given to the use of laying conditions other than Type 1. † ”Flat-bottom” is defined as undisturbed earth. ++ ”Loose soil” or “select material” is defined as native soil excavated from the trench, free of rocks, foreign materials, and frozen earth. Notes:Consideration of the pipe-zone embedment conditions included in this figure may be influenced by factors other than pipe strength. For additional information on pipe bedding and backfill, see ANSI/AWWA C600. American Association of State Highway and Transportation Officials, 444 N. Capitol St. N.W., Suite 225, Washington, DC 20001. THICKNESS DESIGN OF DUCTILE IRON PIPE ANSI/AWWA C150/A21.50 DUCTILE IRON PIPE FOR WATER AND OTHER LIQUIDS ANSI/AWWA C151/A21.51 FEDERAL WWP421D, Grade C DUCTILE IRON PIPE FOR GRAVITY FLOW SERVICE ANSI/ASTM A746 DUCTILE IRON FITTINGS FOR WATER AND OTHER LIQUIDS 3 in. through 36 in. ANSI/AWWA C110/A21.10 DUCTILE IRON COMPACT FITTINGS 3 in. through 24 in. ANSI/AWWA C153/A21.53 FLANGED FITTINGS ANSI/AWWA C110/A21.10 ANSI B16.1 DUCTILE IRON PIPE WITH THREADED FLANGES ANSI/AWWA C115/21.15 COATINGS AND LININGS Asphaltic ANSI/AWWA C151/A21.51 ANSI/AWWA C110/A21.10 ANSI/AWWA C153/A21.53 Cement Lining ANSI/AWWA C104/A21.4 Various Epoxy Linings and Coatings MANUFACTURER’S STANDARD Exterior Polyethylene Encasement ANSI/AWWA C105/A21.5 JOINTS – PIPE AND FITTINGS Push-On and Mechanical Rubber-Gasket Joints ANSI/AWWA C111/A21.11 FEDERAL WWP421D Flanged ANSI/AWWA C115/A21.15 ANSI B16.1 Grooved and Shouldered ANSI/AWWA C606 PIPE THREADS ANSI B2.1 INSTALLATION ANSI/AWWA C600 STANDARDS APPLICABLE TO DUCTILE IRON PIPE AND FITTINGS UTAH 1401 E 2000 S. Provo, UT 84603 801-373-6910 mcwaneductile.com CANADA 1757 Burlington St. E Hamilton, ON L8N-3R5 905-547-3251 canadapipe.com NEW JERSEY 183 Sitgreaves St. Phillipsburg, NJ 08865 908-454-1161 mcwaneductile.com OHIO 2266 S. 6th St. Coshocton, OH 43812 740-622-6651 mcwaneductile.com ISO 9001NSF 61 DIPRA “THE STANDARD OF EXCELLENCE IN THE INDUSTRY”“THE STANDARD OF EXCELLENCE IN THE INDUSTRY”“THE STANDARD OF EXCELLENCE IN THE INDUSTRY”“THE STANDARD OF EXCELLENCE IN THE INDUSTRY” These specifications are accurate at time of publication and are subject to change without prior notice. Submittal Specifications - CCS.docx 08.16.2017 CASCADE WATERWORKS MANUFACTURING COMPANY 1213 Badger Street Yorkville, IL 60560 (630) 553-0840 (800) 426-4301 FAX (630) 553-0181 www.cascademfg.com CASING SPACERS (Stainless Steel) - STYLE – CCS Casing spacer shall be a two-piece shell per carrier pipe and made from T304 stainless steel of a minimum 14 gauge thickness. Each shell section shall be lined with a 0.090” thick, ribbed PVC extrusion with a retaining section that overlaps the edges of the shell and prevents slippage. PVC Liner shall have a hardness of 85-90 durometer. Bearing surfaces (runners) shall be ultra-high molecular weight polyethylene (UHMW) to provide abrasion resistance and a low coefficient of friction (0.12). The runners shall be attached to support structures (risers) at appropriate positions to properly support the carrier pipe(s) within the casing pipe and to ease installation. The runners shall be mechanically bolted to the spacer. Risers shall be MIG welded to the shell, where applicable. Risers shall be made of T304 stainless steel of a maximum 10 gauge with bolt heads welded to the inside of the risers for strength. Bottom risers 6" and over in height shall be reinforced. All reinforcing plates shall be 10 gauge T304 stainless steel and shall be MIG welded to mating parts. STANDARD (STD) positioning within the casing pipe shall be sized such that the carrier rests near the bottom of the casing pipe and the height of the risers and runners are to provide a bottom clearance not less than one-half inch between the casing pipe and the extreme outside diameter of the joint (bell, seam weld, joint clamp, …) of the carrier pipe. CENTERED (CTD) & restrained positioning within the casing pipe shall be sized such that the height of the risers and runners are to center the carrier pipe in the casing pipe with a top clearance of three-fourths inch minimum. RESTRAINED (RES) positioning within the casing pipe shall be sized such that the carrier rests near the bottom of the casing pipe and the height of the risers and runners are to provide a bottom clearance not less than one- half inch between the casing pipe and the extreme outside diameter of the joint (bell, seam weld, joint clamp, …) of the carrier pipe and a top clearance of three-fourths inch minimum. MULTIPLE (MULTI) Carrier pipes within the casing pipe shall be sized such that the carrier pipes are held at fixed distances relative to each other, with the height of the risers and runners to provide not less than three-fourths inch between the casing pipe and the outside diameter of the riser/runner combinations. Special reinforcing plates may be required to stabilize and support structure. All weldments shall be fully chemically passivated in accordance with ASTM A380. Due to the numerous application possibilities, consult factory for spacing requirements. Casing spacers shall be Model CCS as manufactured by Cascade Waterworks Mfg. Co. of Yorkville, IL or approved equal. “THE STANDARD OF EXCELLENCE IN THE INDUSTRY” “THE STANDARD OF EXCELLENCE IN THE INDUSTRY” “THE STANDARD OF EXCELLENCE IN THE INDUSTRY” “THE STANDARD OF EXCELLENCE IN THE INDUSTRY” Submittal Specifications - CCES.doc 10.09.2007 CASCADE WATERWORKS MANUFACTURING COMPANY 1213 Badger Street Yorkville, IL 60560 (630) 553-0840 (800) 426-4301 FAX (630) 553-0181 www.cascademfg.com CASING SPACERS END SEALS - STYLE – CCES Casing spacer end seals shall be a pull-over type construction and made from Neoprene with T-304 stainless steel bands for securing the ends of the end seal to the casing pipe and carrier pipe. Casing spacer end seals shall be Model CCES as manufactured by Cascade Waterworks Mfg. Co. of Yorkville, IL or approved equal. SAMPLE(Overlapping Seam)1122AABB1213 Badger Street Yorkville, Illinois 60560Cascade Waterworks, Mfg.WWWW aaaa tttt eeee rrrr wwww oooo rrrr kkkk ssss MMMM ffff gggg ....STANDARD TOLERANCES UNLESSOTHERWISE SPECIFIEDNOTES: FINISH = XXXX 2 PLACE DECIMALS ± .03 3 PLACE DECIMALS ± .010 ANGULAR DECIMALS ± 1/2 DEGREE. CHAMFER ALL MACHINED SURFACES .005−.010 x 45° AND REMOVE ALL BURRS. ALL PARTS MUST BE FREE FROM SCALE. NO TOLERANCE NEEDED ON REFERENCE DIMENSIONS. ALL BOLT CIRCLE TOLERANCES PER ANSI B16.5 PARA. 7.7 CONCENTRICITY TO CENTERLINE .005 1.2.3.4.5.6.7.8.9.DRAWN BY:DATE:APP’D BY:REVISED 1:REVISED 2:DRAWING NO:SCALE:MATERIAL:C:\Data\Dwgs\STD\End Seals\End Seal - (12.75-20.00 x 1).ipt11/19/2007 M. ZimmerleEnd Seal Installation GuidePush in Carrier side before tightening End SealNeoprene (60 Duro.)End Seal NTSEnd SealLengthCarrierOD20.00"38.30"Casing OD48.00"End Seal Length(Approx.)3.00 FROM THEEDGE OF THE CASING PIPE1.50 FROM THE EDGEBANDS LOCATED APPROX.OF THE END SEALCCCCAAAASSSSCCCCAAAADDDDEEEE MMMMooooddddeeeellll CCCCCCCCEEEESSSS EEEEnnnndddd SSSSeeeeaaaallllsssspull over the casing and carrierpipes after installation to provide a barrier to backfill debris and seepage. (NOT for presure applications.)MMMMAAAATTTTEEEERRRRIIIIAAAALLLL SSSSPPPPEEEECCCCIIIIFFFFIIIICCCCAAAATTTTIIIIOOOONNNNSSSS::::SEAL − Neoprene Other materials availableBANDS − T−304 Stainless SteelCarrier ODCasing OD1.50 FROM THE EDGE BANDS LOCATED APPROX.OF THE END SEAL