High-Strain-Rate Plastic Flow Studied via Nonequilibrium Molecular Dynamics
William G. Hoover(Lawrence Livermore National Laboratory), Anthony J. C. Ladd(Lawrence Livermore National Laboratory), Bill Moran(Lawrence Livermore National Laboratory)
Cited by 710
Abstract
Recent experiments at strain rates reaching 0.1 GHz suggest a power-law dependence of solid-phase shear stress on strain rate. Novel nonequilibrium molecular dynamics simulations of plastic flow have been carried out. These steady-state isothermal calculations appear to be consistent with the present-day experimental data and suggest that the flows of metals can be described by a single physical mechanism over a range of strain rates from 10 kHz to 1 THz.
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