Hydrogen in Metals: Proceedings of an International Conference on the Effects of Hydrogen on Materials Properties and Selection and Structural Design, 23-27 September, 1973, Seven Springs Conference Center, Champion, PaIrving Melvin Bernstein, Anthony W. Thompson |
Contents
GENERAL KEYNOTE LECTURE | 3 |
STRESS CORROSION CRACKING | 4 |
RECENT DEVELOPMENTS IN CLASSICAL INTERNAL HYDROGEN | 17 |
37 other sections not shown
Common terms and phrases
aluminum alloys annealed aqueous atoms austenitic behavior brittle bubbles cathodic charging concentration crack growth rate crack propagation crack tip da/dt decrease delayed failure dislocations ductility effect of hydrogen electron electropolished elongation energy experimental fatigue crack growth Figure fracture mechanics fracture surface gaseous hydrogen grain boundaries hafnium heat treatment high strength hydride hydrogen charged hydrogen content hydrogen diffusivity hydrogen embrittlement hydrogen environment hydrogen gas hydrogen pressure increase indicate interface intergranular iron kinetics KISCC laboratory lattice loading maraging steel martensite material matrix mechanical properties metal microcrack microstructure N/m² nickel notch nucleation observed occur oxide permeation phase plane strain plane stress plastic deformation plate precipitation present reduced region room temperature samples solubility stainless steels strain rate strength level Stress Corrosion Cracking structure susceptibility tensile tests thickness threshold stress intensity tion Trans tritium Troiano vacuum values weld yield strength yield stress