Corzan® CPVC Pipe and Fittings Sample Specifiction SAMPLE SPECIFICATION* PART 1 – GENERAL 1.0 PRODUCT DESCRIPTION Corzan® CPVC pipe and fittings are extruded/molded from CPVC compounds manufactured by Lubrizol Advanced Materials. The pipe compounds shall meet cell class 24448 for high impact/high heat distortion temperature pipe (available through 6" and up to 8" from select manufacturers) or 23447 for pipe 8" or greater as defined by ASTM D1784. The pipe shall be certified by NSF International for use with potable water. Corzan CPVC fittings compound shall meet cell class 23447 and carry a pressure rating listed by PPI (Plastics Pipe Institute). This Corzan CPVC compound shall be pressure rated in accordance with ASTM D-2387 and PPI TR-3 and have hydrostatic design bases of 4000 psi at 72°F and 1000 psi at 180°F as listed in PPI publication TR-4. 1.1 PIPE AND FITTINGS A. Pipe shall meet or exceed the requirements of ASTM F441 in Schedule 80. B. Fittings shall meet or exceed the requirements of ASTM F437 (schedule 80 threaded), and ASTM F439 (schedule 80 socket). 1.2 SOLVENT CEMENT All socket type joints shall be assembled employing solvent cements that meet or exceed the requirements of ASTM F493 and primers that meet or exceed the requirements of ASTM F656. The standard practice for safe handling of solvent cements shall be in accordance with ASTM F402. Solvent cement and primer shall be listed by NSF International for use with potable water, and approved by the Corzan® pipe and fittings manufacturers. 1.3 BASIC USE A. Corzan® CPVC pipe and fittings are intended for use in both pressure and drain applications in hot and cold potable water distribution systems, general chemical plants, pulp and paper mills, water treatment plants, metal treating/electroplating plants, water purification plants and food processing plants. B. Water filled Corzan® pipe and fittings (1/2" through 6") tested in general accordance with UL 723/ASTM E 84 (NFPA 255 and UBC 8-1) meet the 25/50 flame and smoke requirement and shall be permitted to be installed in return air plenums. Test reports from a third party testing laboratory shall be obtained and made available upon request. PART 2 – PRODUCTS 2.0 MATERIALS The piping systems shall be constructed from materials extruded/molded by manufacturers using the Noveon Corzan® CPVC compound. 2.1 MANUFACTURERS A. PIPE AND/OR FITTINGS Charlotte Pipe and Foundry Co. P.O. Box 35430 Charlotte, NC 28235 Phone (800) 438-6091 FAX (800) 553-1605 Harvel Plastics, Inc. P.O. Box 757 Easton, PA 18044-0757 Phone (610) 252-7355 FAX (610) 253-4436 NIBCO, Inc. 1516 Middlebury Street Elkhart, IN 46515-1167 Phone (800) 234-0227 FAX (800) 234-0557 IPEX, Inc. (US) 10100 Rodney Street Pineville, NC 28134 Phone (800) 463-9572 FAX (905) 403-9195 IPEX, Inc. (Canada) 6810 Invader Crescent Mississauga, ON L5T 2B6 Canada Phone (866) 473-9472 FAX (905) 670-5295 B. VALVES Cepex USA, Inc. 13291-106 Vantage Way Jacksonville, FL 32218 Phone: (904) 695-1441 Fax: (904) 695-1442 Hayward Industrial Products One Hayward Industrial Dr. Clemmons, NC 27012-5100 Phone: (800) 910-2536 Fax: (336) 712-9523 IPEX, Inc. (US) 10100 Rodney Street Pineville, NC 28134 Phone: (800) 463-9572 Fax: (905) 403-9195 IPEX, Inc. (Canada) 6810 Invader Crescent Mississauga, ON L5T 2B6 Canada Phone: (866) 473-9472 Fax: (905) 670-5295 NIBCO, Inc. 1516 Middlebury Street Elkhart, IN 46515-1167 Phone (800) 234-0227 FAX (800) 234-0557 Plast-O-Matic Valves, Inc. 1384 Pompton Avenue Cedar Grove, NJ 07009 Phone: (973) 256-3000 Fax: (973) 256-4745 C. SOLVENT CEMENT IPS Corporation 455 West Victoria Street Compton, CA 90220 Phone (800) 421-2677 FAX (310) 898-3392 The Oatey Company 4700 W. 160th St. Cleveland, OH 44135 Phone: 216-267-7100 Fax: 310-898-3392 PART 3 - EXECUTION 3.0 SYSTEM DESIGN A. System design shall be in accordance with standard industry practice for thermoplastic industrial piping systems and the manufacturer’s instructions. The design shall take into consideration such factors as pressure and flow requirements, friction loss, operating temperatures, support spacing, anchoring, bracing and thrust blocking, joining methods, and thermal expansion and contraction. B. A Hazen-Williams C Factor of 150 shall be used in all hydraulic calculations. C. Maximum design temperature/pressure ratings shall not exceed the following: Maximum Design Temperature/Pressure Ratings Nominal Pipe Maximum Water Maximum Water Size (in.) Pressure (psi) Schedule 80* ½ 850 ¾ 690 1 630 1 ¼ 520 1 ½ 470 2 400 2 ½ 420 3 370 4 320 6** 280 8 ** 250 10 ** 230 12 ** 230 14 220 16 220 * Pressure rating applies for water at 73°F. For temperatures greater than 73°F, see derating factor in Section 3.0 F. ** Schedule 80 pipe 6” or larger shall not be threaded. Schedule 80 pipe operating above 130°F shall not be threaded. D. Pressure Rating for Flanged System Flanged systems of any size shall not exceed 150 psi working pressure. E. Pressure Ratings for Threaded Systems Threaded systems (CPVC to CPVC) shall be derated to 50% of the pressure rating for the piping at the system operating temperature. F. Temperature Derating Factors: Working Temperature (°F) Pipe Derating Factor 73-80 1.00 90 0.91 100 0.82 120 0.65 140 0.50 160 0.40 180 0.25 200 0.20 G. Joining Systems 1. Integrating of pipe and fittings shall be done by solvent cementing, threading or flanging. 2. Solvent cement that meets or exceed the requirements of ASTM F493 shall be used in conjunction with a primer/cleaner as manufactured by companies listed in Section 2.1 D. 3. Flanges shall be installed on pipe ends with CPVC primer/cleaner and CPVC solvent cement and then bolted together per the manufacturer’s instructions and torque ratings. 4. Threading shall be performed on Schedule 80 pipe 4" and smaller, per the manufacturer’s instructions. Threads shall be in accordance with ANSI B1.20.1 Taper Pipe Thread. 3.1 INSTALLATION PROCEDURES Installation practices such as pipe support spacing, bracing, allowance for thermal expansion/contraction, solvent cementing and handling and storage shall be in accordance with the manufacturer’s instructions and this specification. 3.2 LIMITATIONS Temperature derating factors shall be applied when operating temperatures exceed 73°F. 3.3 TECHNICAL DATA A. APPLICABLE STANDARDS 1. ANSI/NSF Standard 14 Plastic Piping Components and Related Materials 2. ANSI/NSF Standard 61 Drinking Water System Components – Health Effects 3. ASTM D1784 Specification for Rigid Poly(Vinyl Chloride)(PVC) Compounds and Chlorinated Poly(Vinyl Chloride)(CPVC) Compounds. 4. ASTM D2855 Standard Practice for Making Solvent Cemented Joints with Poly (Vinyl Chloride) (PVC) Pipe and Fittings 5. ASTM F402 Practice for Safe Handling of Solvent Cements, Primers and Cleaners Used for Joining Thermoplastics Pipe and Fittings 6. ASTM F437 Specification for Threaded Chlorinated Poly (Vinyl Chloride) (CPVC) Plastic Pipe Fittings, Schedule 80 7. ASTM F439 Specification for Socket-Type Chlorinated Poly (Vinyl Chloride) (CPVC) Plastic Pipe Fittings, Schedule 80 8. ASTM F441 Specification for Chlorinated Poly (Vinyl Chloride) (CPVC) Plastic Pipe, Schedule 40 and 80 9. ASTM F493 Specification for Solvent Cements for Chlorinated Poly (Vinyl Chloride) (CPVC) Plastic Pipe and Fittings 10. ASTM F656 Specification for Primers for Use in Solvent Cement Joints of Poly (Vinyl Chloride) (PVC) Plastic Pipe and Fittings B. APPLICABLE CODES 1. BOCA, Basic Building, Mechanical and Plumbing Codes 2. IAPMO, Uniform Plumbing Code 3. ICC, International Building, Mechanical and Plumbing Codes 4. ICBO, Uniform Building and Mechanical Codes 5. SBCCI, Standard Building, Mechanical and Plumbing Codes 3.4 TESTING After the system is installed and solvent cement is cured, the system shall be hydrostatically tested per the requirements of the applicable plumbing or mechanical code. 3.5 WARRANTY Consult the manufacturer for specific warranty information. *Not intended to be a stand alone specification. The above specification is intended to be added within your company’s standard plumbing specifications to specify the use of Corzan® CPVC pipe and fittings.