Influence of impurity segregation on temper embrittlement and on slow fatigue crack growth and threshold behavior in 300-M high strength steel
Interactions between hydrogen embrittlement and temper embrittlement have been examined in a study of fracture and low growth rate (near-threshold) fatigue crack propagation in 300-M high strength steel, tested in humid air. The steel was investigated in an unembrittled condition (oil quenched after tempering at 650/sup 0/C) and temper embrittled condition (step-cooled after tempering at 650/sup 0/C). Step-cooling resulted in a severe loss of toughness (approximately 50 pct reduction), without loss in strength, concurrent with a change in fracture mode from microvoid coalescence to intergranular. Using Auger spectroscopy analysis, the embrittlement was attributed to the cosegregation of alloying elements (Ni and Mn) and impurity elements (P and Si) to prior austenite grain boundaries. Prior temper embrittlement gave rise to a substantial reduction in resistance to fatigue crack propagation, particularly at lower stress intensities approaching the threshold for crack growth (..delta..K/sub 0/). At intermediate growth rates (10/sup -5/ to 10/sup -3/ mm/cycle), propagation rates in both unembrittled and embrittled material were largely similar, and only weakly dependent on the load ratio, consistent with the striation mechanism of growth observed. At near-threshold growth rates (less than 10/sup -5/ to 10/sup -6/ mm/cycle), embrittled material exhibited significantly higher growth rates, 30 pct reduction in threshold ..delta..K/sub 0/ values and intergranular facets on fatigue fracture surfaces. Near-threshold propagation rates (and ..delta..K/sub 0/ values) were also found to be strongly dependent on the load ratio. The results are discussed in terms of the combined influence of segregated impurity atoms (temper embrittlement) and hydrogen atoms, evolved from crack tip surface reactions with water vapor in the moist air environment (hydrogen embrittlement). The significance of crack closure concepts on this model is briefly described.
- Research Organization:
- Massachusetts Inst. of Technology (MIT), Cambridge, MA (United States)
- OSTI ID:
- 7215079
- Journal Information:
- Metall. Trans., A; (United States), Vol. 8:7
- Country of Publication:
- United States
- Language:
- English
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