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 a Research Hot Isostatic Press | 9 |
Thermal Stress Response of Piping and Vessels Subjected to Periodic Boundary | 21 |
Copyright | |
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acoustic emission testing analysis applications ASME autofrettage axial ballizing BASF bolted flange bore boundary temperature bursting pressure calibrations caustic solution clearance components compressive compressor coupler crack depth crack growth crack tip Crossland cycle cyclic pressure diameter ratio effects elastic equation equipment expansion engine experimental failure fatigue crack fluid Fracture Mechanics fracture toughness furnace gasket heat flow high pressure high strength hoop stress hysteresis increase initial inlet instroke insulation internal pressure leakage lip seal load Lubrication machine maraging steel material measured molybdenum non-autofrettaged operating pipe piston plane strain plastic predicted pressure transducer pressure vessel pressurised pump radial range reactor residual stresses shaft velocity shear shown in Figure solid strain gauges stress intensity factor stress-intensity stress/strain surface technique tensile stress test rig thermal thermocouple thick cylinders thick-walled cylinder unstable fracture valve wall thickness Welding yield zone