Pressure Component Construction: Design and Materials Application |
Contents
STRESSES IN PRESSURE VESSELS | 30 |
STRESSES IN FLAT PLATES | 95 |
DISCONTINUITY STRESSES IN PRESSURE VESSELS | 141 |
Copyright | |
4 other sections not shown
Common terms and phrases
alloy applied ASME Publication Paper autofrettage axis beam bending stress bolt brittle fracture C₁ Carbon Steel Circular Plate compressive condition construction crack creep cross section curve cylinder cylindrical vessel deflection deformation ductile edge effect elastic elongation embrittlement endurance limit Engineering equation fabrication factor of safety failure fatigue strength fiber fillet flow Fracture Mechanics Fracture Toughness gives heat hence hole hoop stress hydrogen hydrogen embrittlement increase internal pressure irradiation joint length load loge maximum stress membrane metal method modulus neutron notch nozzle nuclear occurs plane plastic Pressure Vessel principal stress properties radial radius ratio reinforcement residual stress rupture shear stress shell shown in Fig specimen spherical strain stress analysis stress concentration factor stress-strain stress-strain curve structure substituting the value surface tensile strength tensile stress tension thermal gradient thermal stress tion transition temperature tube vessel wall Welding Research Council yield point yield strength