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CORRELATION BETWEEN HYDROGEN INDUCED CRACKING INITIATION SITES AND CRITICAL STRESS INTENSITY FACTORS
Author(s) -
GAO H.,
Cao W.,
Fang C.,
De Los Rios E. R.
Publication year - 1994
Publication title -
fatigue and fracture of engineering materials and structures
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.887
H-Index - 84
eISSN - 1460-2695
pISSN - 8756-758X
DOI - 10.1111/j.1460-2695.1994.tb00835.x
Subject(s) - stress intensity factor , materials science , hydrostatic stress , cracking , intensity (physics) , strain rate , critical point (mathematics) , stress (linguistics) , hydrogen , composite material , thermodynamics , chemistry , fracture mechanics , finite element method , physics , mathematics , geometry , optics , linguistics , philosophy , organic chemistry
Abstract— Hydrogen induced cracking (HIC) initiation sites and their correlation with the critical stress intensity factors of hydrogen charged specimens were studied under combined I/II mode loading. Two series of tests, is. constant load (CL) tests and slow strain rate (SSR) tests, were carried out. Experimental results showed that in CL tests, irrespective of the ratio KIJKl, the HIC initiation sites always correspond to the point of maximum hydrostatic stress; which is located some distance ahead of the notch tip. However, for SSRT tests, when K 11 /K 1 > 1, HIC started at the notch tip which corresponds to the point of maximum equivalent plastic strain. When K 11 /K 1 <1 in SSR tests, HIC occurred initially some distance ahead of the notch tip. The relationship between the critical stress intensity factor for HIC and K 11 /K 1 was shown to be different for the two types of test. Multiple effects of stress and strain on hydrogen redistribution and hence on HIC initiation sites, as well as critical stress intensity factors, are discussed.