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Analysis of texture evolution of cubic metals by isotropic and anisotropic viscoplastic self-consistent models

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Abstract

The texture evolutions of cubic metals during tension, compression and rolling have been analyzed by isotropic and anisotropic self-consistent models with the large deformation theory of viscoplastic material. The final texture components predicted from an initial random texture were the same in both isotropic and anisotropic self-consistent models. The effect of rate sensitivity on the rolling texture component was analyzed. The intensity of the major Copper component of the rolling texture increased with the decreasing of rate sensitivity and the increasing of rolling strain.

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  1. Research Institute of Advanced Materials Division of Materials Science and Engineering, Seoul National University, San 56-1 Shinrim-dong, 151-742, Kwanak-ku, Seoul, Korea

    Kyu Hwan Oh

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  1. Kyu Hwan Oh
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Oh, K.H. Analysis of texture evolution of cubic metals by isotropic and anisotropic viscoplastic self-consistent models. Metals and Materials 5, 17–23 (1999). https://doi.org/10.1007/BF03025999

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