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Steady-state creep of single-phase crystalline matter at high temperature

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Abstract

Over the past 15 years important advances have been made in the experimental study of the microstructural changes occurring during the non-linear steady-state creep of single phase crystalline matter at elevated temperatures. Curiously, although the results of these painstaking studies have gone a long way toward elucidating the mechanism of this phenomenon, they have been largely ignored in favour of some simple dislocation mechanisms that are not only inconsistent with these observations, but are also unable to describe correctly the known phenomenology. This review concentrates primarily on the recent experiments on microstructural alterations occurring during creep; however, it also surveys the many mechanistic models that attempt to describe this phenomenon, and finds them all deficient.

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  1. Massaschusetts Institute of Technology, Cambridge, Mass., USA

    S. Takeuchi & A. S. Argon

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On leave from The Institute for Solid State Physics, The University of Tokyo, during 1974–1975.

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Takeuchi, S., Argon, A.S. Steady-state creep of single-phase crystalline matter at high temperature. J Mater Sci 11, 1542–1566 (1976). https://doi.org/10.1007/BF00540888

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