The dependence of cross-slip on stacking-fault energy in face-centred cubic metals and alloys

Abstract The results of an experimental study of the temperature and strain-rate dependence of τIII for Cu–Zn alloys are described and interpreted in terms of Seeger's theoretical analysis of τIII. The values of the stacking-fault energy, γ, derived in this way are compared with the estimates of γ for the same alloys obtained directly from electron microscope observations of dislocation nodes. The two sets of values are found to disagree, and the nature of the discrepancy is such as to throw serious doubts on the applicability of the Seeger analysis to Cu-based alloys with e/a >1.10. The lower limits of γ for pure Cu and Ag, from electron microscope data, are ∼60 ergs/cm2 and ∼20 ergs/cm2; the values of γ deduced from Seeger's τIII analysis are ∼170 ergs/cm2 and ∼30 ergs/cm2 respectively. The lower limit of γ for Cu is inconsistent with the previously accepted figure based on the assumption that γ is twice the twin boundary energy, and this assumption is now held to be invalid. Seeger's model of cross-sli...

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