High Pressure Engineering and Technology for Pressure Vessels and Piping SystemsH. A. Pohto |
Contents
Thermal Equivalency Layered and Solid Pressure Vessels | 1 |
Operating Experience with Research Hot Isostatic Press | 9 |
Thermal Stress Response of Piping and Vessels Subjected to Periodic Boundary | 21 |
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additional analysis applications approximately autofrettage axial bolt bore bursting pressure calculated cause clearance components compressive stresses compressor conducted considered crack cycle cyclic cylinder determined developed diameter difference distribution driven effects elastic emission Engineering equation equipment experimental factor failure fatigue Figure flange flow fluid fracture furnace gauge geometry growth heat high pressure hydraulic increase indicated initial intensity internal pressure layered length limit load located lower machine material maximum mean measured Mechanical method obtained occurs operating performed pipe piston plastic possible predicted presented pressure vessel problems procedure produced pump radial range ratio reduced residual stresses ring seal shaft shear shown shows solid solution specimens steel strain strength stress-intensity surface technique temperature tensile thermal thick thick-walled transducer unit valve wall yield zone