Design, Inspection, and Operation of High Pressure Vessels and Piping Systems: Presented at the Joint Conference of the Pressure Vessels and Piping, Materials, Nuclear Engineering, Solar Energy Divisions, Denver, Colorado, June 21-25, 1981J. R. Sims |
Contents
Hyper Pressure Chamber Closure System With Flat Seals | 1 |
Thermally Induced Leaks In High Pressure Low Density Polyethylene Piping | 9 |
Heavy Walled Vessels Calculation Using French Code Autofrettage And Design | 23 |
Copyright | |
8 other sections not shown
Common terms and phrases
ASTM autofrettage axial bending bolt forces bolt load calculated Chemical closure compression tester cone ring joints contact pressure corrosion crack depth crack growth rate cross-bore corner cross-bore cylinders cycles d/Di decompositions developed diameter effect Engineering failure fatigue crack growth Figure finite element analysis flange flaw fluid pressure forged fracture mechanics fracture toughness furnace GPa gas intensifier GROOVED heat high pressure vessels hoop stress inspection internal pressure joint components kpsi LDPE leaks LENS RING machine main bore Manganin maraging steel material measured method normal operating pressure outer packing cup pipe plant plastic deformation polyethylene reactor PRESSURE TEST Pressure Vessels procedures radial holes radius ratio RECONDITIONING residual stresses safety factor seal coefficient sealing ring sealing surfaces seat plate shear stress shown in Fig specimens strain gauge stress intensity factor STUD tensile thermal thread tierods tube typical valve wall yield strength