Modelling the dynamic deformation and patterning in fcc single crystals at high strain rates: dislocation dynamics plasticity analysis |
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Authors: | M A Shehadeh H M Zbib T Diaz De La Rubia |
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Institution: | 1. School of Mechanical and Materials Engineering , Washington State University , Pullman, WA 99163-2920, USA;2. Materials Science and Technology Division , Chemistry and Materials Science Directorate, Mail Stop L-353, Lawrence Livermore National Laboratory , 7000 East Avenue, Livermore, CA 94550, USA |
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Abstract: | The deformation process in copper and aluminium single crystals under shock loading is investigated using a multiscale model of plasticity that couples discrete dislocation dynamics and finite element analyses. Computer simulations are carried out to mimic loading condition of high strain rates ranging from 105 to 107?s?1, and short pulse durations of few nanoseconds involved in recent laser based experiments. The effects of strain rate, shock pulse duration and the nonlinear elastic properties are investigated. Relaxed configurations using dislocation dynamics show formation of dislocation micro bands and weak dislocation cells. Statistical analyses of the dislocation microstructures are preformed to study the characteristics of the local dislocation densities and the distribution of the instantaneous dislocations velocities. |
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