Equivalent and effective strains during severe plastic deformation (SPD) |
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Authors: | V. M. Segal |
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Affiliation: | 1. Engineering Performance Materials, Howell, MI, USAvladimirsegal@comcast.net |
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Abstract: | ABSTRACTThis paper considers the characteristics of severe plastic deformation (SPD) to estimate its efficacy and to compare different processing techniques. In contrast to effective strains by von Mises and Hencky, the rotation component of the strain rate is included in the analysis as a mode of deformation, which ranges from simple shear to pure shear. Distortions of material elements during a uniform plane plastic flow are calculated using a kinematic approach. For the fixed deformation mode, the current state is defined by the accumulated shears that are identical to the von Mises effective shear strains. In specific cases of pure shear and simple shear, the accumulated shears match the specific distortions of round or square elements prescribed by Hencky or von Mises approach, respectively. The mode of deformation is important to the structural effects of SPD. In general, two separated characteristics, accumulated shear and the coefficient of deformation mode, are necessary to describe strains during SPD. |
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Keywords: | Severe plastic deformation equivalent and effective strains simple shear pure shear |
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