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Strain rate effect on moisture and hydrogen-induced environmental embrittlement of Ni3Al with and without boron

Authors
Journal
Scripta Metallurgica et Materialia
0956-716X
Publisher
Elsevier
Publication Date
Volume
33
Issue
1
Identifiers
DOI: 10.1016/0956-716x(95)00111-8
Disciplines
  • Ecology
  • Geography

Abstract

Abstract At slow strain rates, boron-free Ni 3Al was embrittled in both moist Ar and mixture of Ar + 5% H 2. In contrast to this, boron-doped Ni 3Al was not embrittled in moist Ar, but susceptible to embrittlement in mixture of Ar + 5% H 2. These results indicate that while the addition of boron virtually eliminates embrittlement of Ni 3Al due to water vapor, it does not eliminate embrittlement due to gaseous hydrogen. This different behavior of the boron-doped Ni 3Al tends to suggest that the beneficial role of boron segregation in suppressing moisture-induced embrittlement may be associated with its effect on the interaction between water vapor and the intergranular crack surface, rather than on hydrogen transport along grain boundaries. The environmental component of the embrittlement was greatly diminished at higher strain rates. The increased tensile ductilities of boron-doped Ni 3Al as compared to those of boron-free Ni 3Al at the higher strain rates then can be interpreted to be due to an intrinsically beneficial boron effect. This suggests that the role of boron in ductilizing Ni 3Al is at least two-fold: (1) it acts partly to limit the embrittling effects of water vapor, and (2) it strengthens the boundaries sufficiently to eliminate intergranular failure, but the latter effect seems to be large.

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