The URL can be used to link to this page

Home My WebLink AboutRed Thread IIA Data Sheetfgspipe@nov.com nov.com/fgs Product Name 14/15 Red Thread™ IIA (Product Data)OIL & GAS CHEMICAL& INDUSTRIAL OFFSHOREMARINE MININGFUELHANDLING Applications • Service Station • Vent/Vapor Recovery • Bulk Plant Terminals • Fueling Terminals • Central Fuel Oil Systems • Marinas Terminals • Ethanol Fuel Blends • Biodiesel Fuel • Diesel Exhaust Fluid • UL/ULC Systems that require MV, HB, CT, A&M Fuels Bell & Spigot Materials and Construction All pipe is manufactured by filament winding process using amine-cured epoxy thermosetting resin to impregnate strands of continuous glass filaments with a resin-rich interior surface. The operating pressure of the pipe is up to 250 psig (17.2 bar) with continuous operating temperature to 150°F (66°C). Red Thread IIA is Listed with Underwriters Laboratories Standard 971-2004 for non-metallic underground piping for motor vehicle (MV), high blend (HB), concentrated (CT) and aviation and marine (A&M) fuels. The pipe and fittings are also Listed with Underwriters Laboratories of Canada with both Listings under File MH9162. Fittings Fittings are manufactured with the same chemical and temperature capabilities as the pipe. Depending on the configurations and size, the fittings construction method will be compression molded, contact molded, fabricated or filament wound and are described in FH1250. Testing Installed pipe systems should be tested prior to use to assure soundness of all joints and connections. Locate pressure gauge in close proximity to the pressurizing equipment, not directly on the piping system. A pressure gauge with the test pressure at mid-scale is recommended. Joining System • T.A.B.™ - The primary joining method for pipe joints promoting fast, positive make- up and prevents “backout” during curing. • Bell & Spigot - The primary joining method for fitting joints. These joints assist the installer and assures a fast trouble-free installation. Adhesive for this system is Series 8000. T.A.B. spigots can be bonded into tapered bells and tapered spigots can be Bonded into T.A.B. bells using standard bonding procedures for tapered joints. ASTM D2996 Designation Code - RTRP-11AW13110 View of Joint Illustrations T.A.B. Pipe Size Inside Diameter Outside Diameter Wall Thickness Weight Pressure/Temperature Max. Rating at 150°F (66°C) Mill Test Pressure Minimum Bending Radius in mm in mm in mm in mm lbs/ft kg/m psig MPa psig MPa ft m 2 50 2.238 57 2.372 60 0.067 1.70 0.42 0.63 250 1.72 375 2.59 102 31.0 3 80 3.363 85 3.559 90 0.098 2.49 0.92 1.37 175 1.21 300 2.07 153 46.5 4 100 4.364 111 4.554 116 0.095 2.41 1.15 1.71 125 0.86 265 1.83 195 59.5 6 150 6.408 163 6.686 170 0.139 3.53 2.47 3.68 20 0.14 265 1.83 287 87.4 Nominal Dimensional Data 4 Red Thread IIA - Product Data fgspipe@nov.com nov.com/fgs Fiber Glass Systems 17115 San Pedro Avenue, Ste 200 San Antonio, Texas 78232 USA Phone: 210 477 7500 Fax: 210 477 7560 National Oilwell Varco has produced this brochure for general information only, and it is not intended for design purposes. Although every effort has been made to maintain the accuracy and reliability of its contents, National Oilwell Varco in no way assumes responsibility for liability for any loss, damage or injury resulting from the use of information and data herein nor is any warranty expressed or implied. Always cross-reference the bulletin date with the most current version listed at the web site noted in this literature. © 2017 National Oilwell Varco All rights reserved FH1200ENG February 2017 Ultimate Collapse Pressure Pipe Property 75°F 24°C 200°F 93°C Method psi MPa psi MPa Axial Tensile Ultimate Stress 9,530 65.7 6,585 45.4 ASTM D2105 Modulus of Elasticity 1.68 x 106 11,584 1.42 x 106 9,791 ASTM D2105 Poisson’s Ratio, νah (νha)(1)0.35 (0.61) Axial Compression Ultimate Stress 12,510 86.3 8,560 59.0 ASTM D695 Modulus of Elasticity 0.677 x 106 4,668 0.379 x 106 2,613 ASTM D695 Beam Bending Modulus of Elasticity (Long Term) 2.6 x 106 17,927 0.718 x 106 4,951 ASTM D2925 Hydrostatic Burst Ultimate Hoop Tensile Stress 40,150 277 36,480 252 ASTM D1599 Hydrostatic Hoop Design Stress Static 20 Year Life LTHS - 95% LCL --18,203 - 14,689 125.5 - 101.3 ASTM D2992 - Procedure B Static 50 Year Life LTHS - 95% LCL --16,788 - 13,142 115.7 - 90.6 ASTM D2992 - Procedure B Parallel Plate Hoop Modulus of Elasticity 3.02 x 106 20,822 --ASTM D2412 Shear Modulus 1.76 x 106 12,135 1.63 x 106 11,250 - Pipe Property Value Value Method Thermal Conductivity 0.23 BTU/hr•ft•°F 0.4 W/m°C ASTM D177 Thermal Expansion 10.7 x 10-6 in/in °F 19.3 x 10-6 mm/mm °C ASTM D696 Absolute Roughness 0.00021 in 0.00053 mm Specific Gravity 1.8 ASTM D792 Typical Mechanical Properties Typical Physical Properties Pipe Length Size Collapse Pressure(2)(3)(4) psig MPa in mm 75°F 150°F 24°C 66°C 2 50 177 133 1.22 0.92 3 80 171 129 1.18 0.89 4 100 69 51 0.48 0.35 6 150 69 51 0.48 0.35 (1) νha = The ratio of axial strain to hoop strain resulting from stress in the hoop direction. νah= The ratio of hoop strain to axial strain resulting from stress in the axial direction. (2) The differential pressure between internal and external pressure which causes collapse. (3) A 0.67 design factor is recommended for short duration vacuum service. A full vacuum is equal to 14.7 psig (0.101 MPa) differential pressure at sea level. (4) A 0.33 design factor is recommended for sustained (long-term) differential collapse pressure design and operation. Size Standard Random in mm ft m ft m 2-6 50-150 15 4.57 22-25 6.7-7.62