Abstract
An investigation was made of defect production during plastic deformation. Prior to cold-rolling, samples of Au were damaged and preannealed at temperatures in order to maximize site fractions of five different In-vacancy defect complexes, such as In-1V and In-2V. Evolutions of site fractions were monitored by perturbed γ-γ angular correlation spectroscopy after additional strains at 77 K. Observed transformations between sites are consistent with defect-antidefect annihilation reactions between the small complexes and mobile interstitials, and indicate a large production of interstitials during deformation. An extended defect complex attributed to a planar faulted loop became glissile under small strain.
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Supported in part by National Science Foundation grant DMR 86-19688 (Mctallurgy Program).
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Shropshire, S.L., Collins, G.S. Production and migration of interstitials in deformed metals. Hyperfine Interact 60, 667–670 (1990). https://doi.org/10.1007/BF02399841
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DOI: https://doi.org/10.1007/BF02399841