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Microstructural observations of superplastic cavitation in fine grained 7475-Ai

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Abstract

Intergranular cavitation is an important consideration in the successful development of a commercially viable superplastic forming process for the high strength aluminum alloy, 7475. This work examined the microstructural features involved in the initiation stages of cavity formation. The observations suggest that, with the optimum superplastic deformation conditions, cavity nucleation is generally the rate determining step in the overall development of cavitation with strain. Cavities do not generally form at even the largest of the common single phase inclusion particles unless forming conditions are such that the flow stress significantly increases. It appears that, as well as local stress concentrations, additional effects are required, such as temperature induced particle decohesion and internal gas evolution, in order that cavities may grow to stable sizes. Such conditions may exist at certain two phase inclusion particles in the 7475 Al alloy. Suitable modifications to the standard alloy processing may therefore be devised which result in even lower rates of cavitation at the optimum superplastic forming conditions.

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Authors and Affiliations

  1. Rockwell International, North American Aircraft Operations, 90245, El Segundo, CA

    C. C. Bampton

  2. Alcan International Ltd., Banbury, UK

    J. W. Edington

Authors
  1. C. C. Bampton
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  2. J. W. Edington
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C.C. BAMPTON, formerly at the Rockwell International Science Center

J.W. EDINGTON, formerly at the University of Delaware

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Bampton, C.C., Edington, J.W. Microstructural observations of superplastic cavitation in fine grained 7475-Ai. Metall Trans A 13, 1721–1727 (1982). https://doi.org/10.1007/BF02647827

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