Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 3American Society of Mechanical Engineers, 2002 - Arctic regions |
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Page 43
... Longitudinal Stress ( MPa ) 400 200 -200 -400 -600 Studless Stud 0 20 40 60 80 100 s ( mm ) Longitudinal Stress ( MPa ) 400- 200 -200 400- T 0 Studless Stud 20 40 60 80 100 s ( mm ) Figure 8 - Longitudinal residual stress in sections A ...
... Longitudinal Stress ( MPa ) 400 200 -200 -400 -600 Studless Stud 0 20 40 60 80 100 s ( mm ) Longitudinal Stress ( MPa ) 400- 200 -200 400- T 0 Studless Stud 20 40 60 80 100 s ( mm ) Figure 8 - Longitudinal residual stress in sections A ...
Page 153
... longitudinal distributions of longitudinal strain on the compressive surface . In Fig.25 , the measured strain shown in Fig.22 was also indicated . The longitudinal strain was calculated as nominal strain with lengths between nodes on ...
... longitudinal distributions of longitudinal strain on the compressive surface . In Fig.25 , the measured strain shown in Fig.22 was also indicated . The longitudinal strain was calculated as nominal strain with lengths between nodes on ...
Page 190
... longitudinal direction . Figure 1 illustrates the tensile specimen with a thickness of 12 mm . Figure 2 shows the stress - strain relationship of the pipes . Pipe B had a yield plateau . Table 3 shows the tensile properties of the pipe ...
... longitudinal direction . Figure 1 illustrates the tensile specimen with a thickness of 12 mm . Figure 2 shows the stress - strain relationship of the pipes . Pipe B had a yield plateau . Table 3 shows the tensile properties of the pipe ...
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21st International Conference alloys analysis anchor applied assessment axial calculated coating coefficient composite compressive Conference on Offshore corrosion crack growth crack initiation damage defect deformation depth Det Norske Veritas developed diameter displacement distribution effect Engineering June 23-28 equation evaluation failure fatigue crack fatigue test Figure finite element flaw flexible pipe flowline fracture mechanics fracture toughness function Grade heat hydrogen hydrogen embrittlement ice load increase installation insulation integrity joint laser weld layer length longitudinal maximum measured mechanical properties method Norsk Hydro Norway Offshore Mechanics parameters performed piezoelectric pipeline plastic plate predicted pressure reliability residual stress rope S-N curve safety factors sensors shown simulation solution specimens steel strain strength stress range surface syntactic foam Table Technology temperature tensile tension thermal thermal conductivity thermal insulation thickness titanium titanium risers uncertainties variables velocity Weibull distribution yield strength