Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 2, Parts 1-2American Society of Mechanical Engineers, 2000 - Arctic regions |
From inside the book
Results 1-3 of 84
Page 956
... FACTOR The stress intensity factor of center crack tensile specimen ( CCT ) can be written theoretically in the following form : K1 = σ √πF ( 2α / W ) ( 2 ) If composite patch is attached then this equation is no more valid in ...
... FACTOR The stress intensity factor of center crack tensile specimen ( CCT ) can be written theoretically in the following form : K1 = σ √πF ( 2α / W ) ( 2 ) If composite patch is attached then this equation is no more valid in ...
Page 957
... factor of CCT specimen obtained by eq ( 1 ) and FE calculation are indicated in Table.2 . Three cases under nominal ... factor is defined as follows : R = K2 / Kb ( 6 ) Where : K , is stress intensity factor after repair Kb is stress ...
... factor of CCT specimen obtained by eq ( 1 ) and FE calculation are indicated in Table.2 . Three cases under nominal ... factor is defined as follows : R = K2 / Kb ( 6 ) Where : K , is stress intensity factor after repair Kb is stress ...
Page 1204
... factors Table 3 - Safety class resistance factor , Ysc Low 1.04 Normal 1.14 High 1.26 Table 4- General resistance factor , Ym ULS 1.15 SLS / ALS 1.0 Serviceability limit states are most often associated with determination of acceptable ...
... factors Table 3 - Safety class resistance factor , Ysc Low 1.04 Normal 1.14 High 1.26 Table 4- General resistance factor , Ym ULS 1.15 SLS / ALS 1.0 Serviceability limit states are most often associated with determination of acceptable ...
Contents
OMAE2000OSU OFT3007 | 878 |
OMAE2000OSU OFT4061 147 | 894 |
OMAE2000MAT2079 | 911 |
Copyright | |
36 other sections not shown
Other editions - View all
Common terms and phrases
alloys application ASME assessment axial bending buckling calculated coefficient composite Copyright corrosion crack growth CTOD cycles deformation depth displacement distribution DQEM drag coefficient drilling fluid Engineering equation failure fatigue crack Figure finite element fire flexible pipe flow flowline FM analysis fracture mechanics function grade gradient hammer peening increase initial inspection installation insulation interlayer layer length lift coefficient material maximum method mode operation parameters peening pipeline plastic plate predicted pressure probabilistic production propagation properties PWHT reduced velocity reliability resistance riser seabed shear shielding gas shown simulation SINTEF SN curves soil span specimens Statoil steel strain strength stress intensity factor stress range surface Table temperature tensile thermal thickness titanium tubular joints tundra turbidity current values vertical loop vessel weld metal weld toe yield strength yield stress Zeepipe