Pressure Vessel Technology: Design and analysisAmerican Society of Mechanical Engineers, 1973 - Pressure vessels |
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Page 533
... shear , as well as the reduced thick- ness - shear stiffness of the adhesive joints , it is desirable to account for the effect of thickness - shear flexibility in re- ducing the critical buckling pressure . To account for this , the ...
... shear , as well as the reduced thick- ness - shear stiffness of the adhesive joints , it is desirable to account for the effect of thickness - shear flexibility in re- ducing the critical buckling pressure . To account for this , the ...
Page 600
... SHEAR STUDS For the dimensioning of shear studs three possibilities of failure need be considered . The first is the shear of the stud along the plane defined by the interface between barrel and cover . This requires the average shear ...
... SHEAR STUDS For the dimensioning of shear studs three possibilities of failure need be considered . The first is the shear of the stud along the plane defined by the interface between barrel and cover . This requires the average shear ...
Page 604
... Shear Stress Model Type R / T P ( lb / in.2 ) odly / UTS * ( lb / in.2 ) 25 / 0d 1 Shear Stud 13.8 1,400 0.65 0.33 7,525 0.78 2 Shear Stud 5.1 4,000 0.69 0.35 17,000 1.67 3 Shear Stud 5.1 4,000 0.69 0.35 12,800 1.25 4 Lock . Ring 5.1 ...
... Shear Stress Model Type R / T P ( lb / in.2 ) odly / UTS * ( lb / in.2 ) 25 / 0d 1 Shear Stud 13.8 1,400 0.65 0.33 7,525 0.78 2 Shear Stud 5.1 4,000 0.69 0.35 17,000 1.67 3 Shear Stud 5.1 4,000 0.69 0.35 12,800 1.25 4 Lock . Ring 5.1 ...
Contents
CONSIDERATIONS ABOUT THE RELIABILITY OF NUCLEAR | 25 |
PLASTIC AND CREEP ANALYSIS | 239 |
129 | 281 |
Copyright | |
1 other sections not shown
Common terms and phrases
applied ASME axial stress axis behavior Boiler boundary conditions buckling calculated circumferential Code components composite concentration factor concrete constant crack creep strain curve cycle cyclic cylinder cylindrical shell deformation diameter displacement effect elastic equations experimental fiber Figure finite element analysis finite element method flange fracture function hole hoop hoop stress in-plane internal pressure intersection limit couple liner load longitudinal material maximum mechanical membrane method normal notch nozzle Nuclear obtained out-of-plane PCRV percent photoelastic pipe bend plane plastic plate Poisson's ratio predicted pressure vessel prestressed prestressed concrete pump radial radius ratchetting ratio reactor reinforcement saddle shear shear stress shown in Fig sinē solution specimens steel strain concentration strain gages stress analysis stress concentration stress distribution structure studs Table tangent temperature tendons tensile theory thermal thickness tion transient tube upper bound values welding yield yield strength