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UL/ULC Listed ReAhread@ IIA Piping Sysftn
<br />RED THREAD IIA Primary Pipin 9
<br />Mc M.
<br />I---
<br />P a, t 14 u iber I
<br />Pipe Length
<br />Nominal
<br />Weight
<br />Q -w
<br />Pressure/
<br />Temperature
<br />Max. ating
<br />Mill Test
<br />Pressure
<br />External Pressure
<br />Max. Ratin 9
<br />(psig/MPa)
<br />girl a PONT. M.
<br />MPa @ 24°C
<br />psi @ 150'F
<br />Wa @, 66'--C
<br />no RITI M#. -M
<br />Ultimate Stress
<br />��510110
<br />71,0
<br />�M__
<br />51 61.5
<br />Design Stress
<br />2,575
<br />no vivo Ms. -M
<br />of
<br />Modulus of Elasticity
<br />D Me
<br />5,4 6
<br />��ri
<br />979'
<br />nl now,
<br />OW MI,
<br />Ultimate Stress
<br />RED THREAD IIA
<br />Secondary Containment Piping
<br />Nominal
<br />I.D.
<br />Part Number
<br />Pipe Length
<br />Nominal
<br />Weight
<br />Q -w
<br />Pressure/
<br />Temperature
<br />Max. ating
<br />Mill Test
<br />Pressure
<br />External Pressure
<br />Max. Ratin 9
<br />(psig/MPa)
<br />psi @ 75'F
<br />MPa @ 24°C
<br />psi @ 150'F
<br />Wa @, 66'--C
<br />rIZINT, - M.,
<br />Ultimate Stress
<br />10,300
<br />71,0
<br />8,200
<br />51 61.5
<br />Design Stress
<br />2,575
<br />17.8
<br />of
<br />Modulus of Elasticity
<br />D Me
<br />5,4 6
<br />1.42 x 106
<br />979'
<br />Axial Compression (ASTM D695)
<br />OW MI,
<br />Ultimate Stress
<br />(1) All values except pressure -temperature
<br />maximum rating are nominal values- Tolerances
<br />or maximum/minimum limits can be obtained
<br />from Smith Fibercast-
<br />(2) All sizes can accept full vacuum pressures
<br />at maximum temperature ratings.
<br />(3) Ultimate and allowable design stresses are
<br />based on minimum reinforced wall thickness.
<br />Pipe is manufactured in compliance with ASTM
<br />D29W
<br />(4) Design bending stress is 118 of ultimate to
<br />account for combined stress (i.e. bending and
<br />pressure).
<br />(5)Design stress is based on long term cyclic
<br />fatigue data using ASTM D2992 test method-
<br />However,
<br />ethodHowever, all testing is not complete at time of
<br />printing.
<br />(6) For RED THREAD IIA pipe the hydrostatic
<br />cyclic design stress was determined at 150' and
<br />200°F, per ASTM D2992 Procedure A. Based
<br />on this data, the extrapolated value at 75'F is
<br />13,030 psi.
<br />(7)For RED THREAD IIA pipe the hydrostatic
<br />cyclic design stress was determined at 75' and
<br />200°F, per ASTM D2992 Procedure A. Based
<br />on this data, the extrapolated value at 150IF is
<br />7,400 psi.
<br />Nominal
<br />I.D.
<br />Nominal
<br />O.D
<br />Nominal
<br />Wall
<br />Thickness
<br />Nominal
<br />Weight
<br />Q -w
<br />Pressure/
<br />Temperature
<br />Max. ating
<br />Mill Test
<br />Pressure
<br />External Pressure
<br />Max. Ratin 9
<br />(psig/MPa)
<br />psi @ 75'F
<br />MPa @ 24°C
<br />psi @ 150'F
<br />Wa @, 66'--C
<br />Axial Tensile (ASTM D2105)
<br />Ultimate Stress
<br />10,300
<br />71,0
<br />8,200
<br />51 61.5
<br />Design Stress
<br />2,575
<br />17.8
<br />of
<br />Modulus of Elasticity
<br />1.82 x 106
<br />5,4 6
<br />1.42 x 106
<br />979'
<br />Axial Compression (ASTM D695)
<br />Ultimate Stress
<br />33,300
<br />230 0
<br />25,600
<br />Design Stress
<br />8,300
<br />EVORT-MYNAINIQ
<br />6.400
<br />44.1
<br />Modulus of Elasticity
<br />1.26 x 106
<br />_Ss"
<br />.89 x 106
<br />6136
<br />Beam Bending (SFPTM)
<br />Ultimate Stress
<br />23,000
<br />0
<br />19,200
<br />Design Stress(4)
<br />2,900
<br />:1,0
<br />2,400
<br />Modulus of Elasticity
<br />2.18 x 106
<br />1.70 x 106
<br />(1) All values except pressure -temperature
<br />maximum rating are nominal values- Tolerances
<br />or maximum/minimum limits can be obtained
<br />from Smith Fibercast-
<br />(2) All sizes can accept full vacuum pressures
<br />at maximum temperature ratings.
<br />(3) Ultimate and allowable design stresses are
<br />based on minimum reinforced wall thickness.
<br />Pipe is manufactured in compliance with ASTM
<br />D29W
<br />(4) Design bending stress is 118 of ultimate to
<br />account for combined stress (i.e. bending and
<br />pressure).
<br />(5)Design stress is based on long term cyclic
<br />fatigue data using ASTM D2992 test method-
<br />However,
<br />ethodHowever, all testing is not complete at time of
<br />printing.
<br />(6) For RED THREAD IIA pipe the hydrostatic
<br />cyclic design stress was determined at 150' and
<br />200°F, per ASTM D2992 Procedure A. Based
<br />on this data, the extrapolated value at 75'F is
<br />13,030 psi.
<br />(7)For RED THREAD IIA pipe the hydrostatic
<br />cyclic design stress was determined at 75' and
<br />200°F, per ASTM D2992 Procedure A. Based
<br />on this data, the extrapolated value at 150IF is
<br />7,400 psi.
<br />RED THREAD IIA Pipe
<br />war-Inp-M
<br />PROPERTY
<br />=,Boom
<br />psi @ 75'F
<br />MPa @ 24°C
<br />psi @ 150'F
<br />Wa @, 66'--C
<br />Axial Tensile (ASTM D2105)
<br />Ultimate Stress
<br />10,300
<br />71,0
<br />8,200
<br />51 61.5
<br />Design Stress
<br />2,575
<br />17.8
<br />2,050
<br />Modulus of Elasticity
<br />1.82 x 106
<br />5,4 6
<br />1.42 x 106
<br />979'
<br />Axial Compression (ASTM D695)
<br />Ultimate Stress
<br />33,300
<br />230 0
<br />25,600
<br />Design Stress
<br />8,300
<br />ti7,2
<br />6.400
<br />44.1
<br />Modulus of Elasticity
<br />1.26 x 106
<br />_Ss"
<br />.89 x 106
<br />6136
<br />Beam Bending (SFPTM)
<br />Ultimate Stress
<br />23,000
<br />0
<br />19,200
<br />Design Stress(4)
<br />2,900
<br />:1,0
<br />2,400
<br />Modulus of Elasticity
<br />2.18 x 106
<br />1.70 x 106
<br />'1 2 1
<br />(Long Term per ASTM D2925�
<br />Hydrostatic Burst (ASTM D1599)
<br />Ultimate Hoop
<br />Tensile Stress
<br />34,000
<br />39,200
<br />Hydrostatic Design (ASTM D2992.)
<br />2"-3"
<br />2" & 3"
<br />Procedure A
<br />9,410(5)
<br />7,400(7)
<br />Cyclic 150 x 106
<br />4"-6"
<br />4"-6"
<br />Cycles
<br />13,040(6)
<br />10,450
<br />Coefficient of Linear
<br />0.88 x 10-5 in./in./'F
<br />Thermal Expansion (SFPTM)
<br />u3 x I
<br />ir),-, -i n 1, m IC
<br />Specific Gravity
<br />1.8
<br />Flow Factor
<br />Hazen -Williams Coefficient
<br />150
<br />(1) All values except pressure -temperature
<br />maximum rating are nominal values- Tolerances
<br />or maximum/minimum limits can be obtained
<br />from Smith Fibercast-
<br />(2) All sizes can accept full vacuum pressures
<br />at maximum temperature ratings.
<br />(3) Ultimate and allowable design stresses are
<br />based on minimum reinforced wall thickness.
<br />Pipe is manufactured in compliance with ASTM
<br />D29W
<br />(4) Design bending stress is 118 of ultimate to
<br />account for combined stress (i.e. bending and
<br />pressure).
<br />(5)Design stress is based on long term cyclic
<br />fatigue data using ASTM D2992 test method-
<br />However,
<br />ethodHowever, all testing is not complete at time of
<br />printing.
<br />(6) For RED THREAD IIA pipe the hydrostatic
<br />cyclic design stress was determined at 150' and
<br />200°F, per ASTM D2992 Procedure A. Based
<br />on this data, the extrapolated value at 75'F is
<br />13,030 psi.
<br />(7)For RED THREAD IIA pipe the hydrostatic
<br />cyclic design stress was determined at 75' and
<br />200°F, per ASTM D2992 Procedure A. Based
<br />on this data, the extrapolated value at 150IF is
<br />7,400 psi.
<br />war-Inp-M
<br />=,Boom
<br />(1) All values except pressure -temperature
<br />maximum rating are nominal values- Tolerances
<br />or maximum/minimum limits can be obtained
<br />from Smith Fibercast-
<br />(2) All sizes can accept full vacuum pressures
<br />at maximum temperature ratings.
<br />(3) Ultimate and allowable design stresses are
<br />based on minimum reinforced wall thickness.
<br />Pipe is manufactured in compliance with ASTM
<br />D29W
<br />(4) Design bending stress is 118 of ultimate to
<br />account for combined stress (i.e. bending and
<br />pressure).
<br />(5)Design stress is based on long term cyclic
<br />fatigue data using ASTM D2992 test method-
<br />However,
<br />ethodHowever, all testing is not complete at time of
<br />printing.
<br />(6) For RED THREAD IIA pipe the hydrostatic
<br />cyclic design stress was determined at 150' and
<br />200°F, per ASTM D2992 Procedure A. Based
<br />on this data, the extrapolated value at 75'F is
<br />13,030 psi.
<br />(7)For RED THREAD IIA pipe the hydrostatic
<br />cyclic design stress was determined at 75' and
<br />200°F, per ASTM D2992 Procedure A. Based
<br />on this data, the extrapolated value at 150IF is
<br />7,400 psi.
<br />
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