Materials , fracture and fatigueInstitution of Mechanical Engineers (Great Britain) Mechanical Engineering Publications Limited for the Institution of Mechanical Engineers, 1980 - Pressure vessels - 410 pages |
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Common terms and phrases
analysis applied ASME Code assessment ASTM austenitic axial bainitic behaviour bend brittle fracture calculated cent Charpy cooling corner crack crack propagation crack tip creep critical curve cyclic da/dN defect determined displacement ductile dynamic fracture toughness effect elastic plastic equation evaluation experimental failure fatigue crack growth finite element fracture mechanics fracture toughness geometry heat treatment hydrogen hydrogen embrittlement increases ingot initiation K₁ lateral expansion LEFM linear elastic load martensitic material maximum mechanical properties method MPa/m N/mm² normal notch nozzle nuclear number of cycles obtained parameter pipe predicted present pressure vessel procedure range ratio reactor residual stress shown in Fig shows specimens stainless steel strain rate stress intensity factor stress relieved structure surface crack Table tensile strength test temperature thermal shock thickness toughness values ture upper shelf weld metal wide plate yield strength yield stress Young's modulus zone