Proceedings of the Second International Conference on Creep and Fracture of Engineering Materials and Structures, Part 2B. Wilshire, D. R. J. Owen |
Contents
J PILLING N RIDLEY and D J GOOCH | 625 |
J PETERSEIM and G SAUTHOFF 267 | 629 |
25Cr1Mo Steels | 633 |
Copyright | |
49 other sections not shown
Common terms and phrases
alloys analysis austenite bainitic boron calculated carbides cavitation cavity nucleation cold strained material components constant corrosion crack growth rate crack initiation crack tip creep damage creep deformation creep fracture creep properties creep rupture creep strain creep strength creep tests creep-fatigue CrMoV cycle cyclic decrease deformation density dislocation ductility effect electron equation experimental failure fatigue ferritic Figure fracture mechanism fracture surfaces grain boundary Hastelloy heat treatment high temperature hoop stress Inconel increase interface intergranular load martensitic method microcracks microstructure minimum creep rate molybdenum niobium notch nucleation observed obtained occurred oxide parameter parent material particles phosphorus pipe plastic precipitation predicted prestrained range ratio reduced residual rupture strength samples segregation shows solution treated specimens stainless steel strain rate stress relaxation structure tensile tensile stress tensor thermal tion torsion uniaxial values weld metal weldments zone