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UL/ ULC i Thread® 11A PipingSystem <br /> RED THREAD 11A PIPINGRED ` HR AD IIA <br /> RED THREAD IIA Primary Piping Secondary Containment Piping � <br /> Nom . Pipe Size Pipe Length Nom . Pipe Size Pipe Length <br /> Part Number Part Number <br /> ( In . ) mm (ft. ) ( In , ) mm ft ) <br /> ``tea <br /> 2 50 011020-069 -1 15 3 80 011030 -069 -4 15 <br /> 2 50 011020-069-2 22 -25 3 80 011030 -069-5 22 -25 <br /> 2 1 50 011020-069-3 26-30 3 80 01 '1030-069 - 6 2.6-30 <br /> 3 80 011030-069 - 1 15 4 100 011040 -077 -5 15 <br /> 3 80 011030-069-2 22-25 4 100 011040 -069- 5 22 -25 <br /> 3 80 011030-069-3 26 -30 4 100 011040 -077- 6 26 - 30 <br /> 4 100 011040-071 - 1 15 6 150 011060- 120- 5 15 <br /> !4 :: <br /> 100 011040-069 -2 22-25 []]6 150 011060 - 120-4 22 -25 <br /> 100 011040-071 - 3 26.Lj 6 150 011060 - 120- 6 26 - 30 <br /> DIMENSIONAL DATA <br /> Nominal External Pressure <br /> Nominal Wall Max . Rating <br /> Nominal Nominal Nominal Pressure/ Mill TestI <br /> si llVii' <br /> Pipe I p p Thickness Weight Temperature Pressure ( p g ) <br /> Size ( Ind ( ) ( ) ( In .lrarn ) ( lbs .Ift./k g ,. g / l�il , a ) <br /> mm ) <br /> In ./min ) In ./rnlrt Thickness m ) Max . Rating ( psi 750F/240C 150 ° F/660 <br /> ( Indnim ) <br /> 2 2235 2375 , 070 0 . 5 250 psig @ 150 ° F 375 85 80 <br /> 50 57 61 1 . 78 034 1 . 72 MPa @ 66 `' C 2 . 59 . 57 . 55 <br /> 3 3 , 360 1500 . 070 0 . 7 175 prig @ 150 ° F 300 36 34 <br /> 80 85 90 2 . 54 1 v0 1 . 21 MF) a Ci) 66 " C 2407 . 25 . 23 <br /> 4 4 . 360 4 . 560 . 085 1 . 2 125 psig @ 150 ° F 265 34 30 <br /> 100 111 1 116 1 2 . 16 1 .79 1 0 . 86 MPS a, 66 ° C 1 . 83 . 23 . 21 <br /> RED THREAD IIA Pipe Bending Radius , Minimum <br /> PROPERTY psi @ 75° F MPP (q)) 24`C psi @ 150 ° F MPa Co 66 ° C Nominal <br /> Axial Tensile (ASTM D2105) Pipe Size 2 " 3 " 4" 6 " <br /> Ultimate Stress 10 , 300 71 , () 8 , 200 56 . 5 ( inches) <br /> Design Stress 2 , 575 17. 8 21050 14 . 1 Ft, 75 110 140 204 <br /> Modulus of Elasticity 1 . 82 x 106 125A18 1 .42 x 106 9791 <br /> m 2163 33 , 5 4267 62 . 2 <br /> Axial Compression (ASTM D695 ) <br /> ure <br /> Ultimate Stress 33 , 300 2_ 3040 25 , 600 177 , 0 m All values except roesprevalues, <br /> Tolerances maximum rating are nominal values. Tolerances <br /> Design Stress 81300 57 . 2 61400 44 . 1 or maximum/minimum limits can be obtained <br /> Modulus of Elastici 1 . 26 x 106 1 8687 . 89 x 106 6136 from Smith Fibercast. <br /> (2) All sizes can accept full vacuum pressures <br /> Beam Bending (SFPTM ) at maximum temperature ratings. <br /> Ultimate Stress 23 , 000 159 . 0 19 , 200 0132 . 0 (3) Ultimate and allowable design stresses are <br /> Design Stress (4 ) 21900 20 , 0 21400 16 . 5 based on minimum reinforced wall thickness . <br /> Pipe Is <br /> Modulus of Elasticity 2 . 18 x 106 15031 1 .70 x 106 1 ,172. 1 D2996, manufactured in compliance with ASTM <br /> Long Tenn per ASTM D2925 (4 ) Design bending stress is lie of ultimate to <br /> Hydrostatic Burst (ASTM D1599) account for combined stress (Le , bending and <br /> pressure ). <br /> Ultimate Hoop (5) Design stress is based on long term cyclic <br /> Tensile Stress 3000 234 39 , 200 271 fatigue data using ASTM D2992 test method . <br /> Hydrostatic Design (ASTM D2992 ) 2 11 41 2 " & 3 t' 2" & 3" 2" & 3" However, all testing is not complete at time of <br /> Procedure A 9 , 410(5) 64 . 9 (5) 7 ,400(7 ) 5116 ) printing . <br /> (6) For RED THREAD IIA pipe the hydrostatic <br /> Cyclic 150 x 106 4J 41 4 %6" 4"-6'' 4 "-6 " cyclic design stress was determined at 1500 and <br /> Cycles 13 , 040(6 ) 89 . 9 (c) 10 ,450 72 . 1 200 ° F, per ASTM D2992 Procedure A. Based <br /> on this data , the extrapolated value at 75 ° F is <br /> Coefficient of Linear 0 . 88 x 10-5 in ./in ./° F 13,030 psi . <br /> Thermal Expansion (SFPTM ) '1 . 513 x 10-5mm/rnrn/° C (7 ) For RED THREAD IIA pipe the hydrostatic <br /> Specific Gravity 118 cyclic design stress was determined at 75` and <br /> 20VF, per ASTM D992 Procedure A. Based <br /> Flow Factor on this data , the extrapolated value at 150" F is <br /> Hazen -Williams Coefficient 150 7 ,400 psi . <br /> 4 <br />