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Effect of Stress on Hole Formation during the Diffusion of Zinc from Brass in vacuo
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  • Published: 19 October 1957

Effect of Stress on Hole Formation during the Diffusion of Zinc from Brass in vacuo

  • L. M. T. HOPKIN1 

Nature volume 180, page 808 (1957)Cite this article

  • 95 Accesses

  • 2 Citations

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Abstract

IT has been suggested by Greenwood1 that intergranular fracture during deformation at elevated temperatures, which occurs by the linking together of isolated holes at grain boundaries, is the result of precipitation of excess vacancies produced by the deformation. Some doubts have been cast on this view. For example, in diffusion couples, holes may be formed by the precipitation of excess vacancies produced by the unequal rates of diffusion of the components, but these holes have little preference for grain boundaries. An exception to this can occur, however, during the diffusion of zinc from brass in vacuo, and Balluffi and Seigle2 have suggested, without proof, that in this case the preferential formation of holes at grain boundaries is associated with the presence of stress.

References

  1. Greenwood, J. N., J. Iron Steel Inst., 171, 380 (1952). Greenwood, J. N., Miller, D. R., and Suiter, J. W., Acta Met., 2, 250 (1954).

    CAS  Google Scholar 

  2. Balluffi, R. W., and Seigle, L. L., Acta Met., 1, 170 (1955).

    Article  Google Scholar 

  3. Hopkin, L. M. T., J. Inst. Metals, 85, 422 (1956–57).

    Google Scholar 

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Authors and Affiliations

  1. Metallurgy Division, National Physical Laboratory, Teddington

    L. M. T. HOPKIN

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  1. L. M. T. HOPKIN
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HOPKIN, L. Effect of Stress on Hole Formation during the Diffusion of Zinc from Brass in vacuo . Nature 180, 808 (1957). https://doi.org/10.1038/180808a0

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  • Issue Date: 19 October 1957

  • DOI: https://doi.org/10.1038/180808a0

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