Materials Theory (May 2019)

Overdamped langevin dynamics simulations of grain boundary motion

  • Carolina Baruffi,
  • Alphonse Finel,
  • Yann Le Bouar,
  • Brigitte Bacroix,
  • Oguz Umut Salman

DOI
https://doi.org/10.1186/s41313-019-0016-1
Journal volume & issue
Vol. 3, no. 1
pp. 1 – 26

Abstract

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Abstract Macroscopic properties of structural materials are strongly dependent on their microstructure. However, the modeling of their evolution is a complex task because of the mechanisms involved such as plasticity, recrystallization, and phase transformations, which are common processes taking place in metallic alloys. This complexity led to a growing interest in atomistic simulations formulated without any auxiliary hypotheses beyond the choice of interatomic potential. In this context, we propose here a model based on an overdamped stochastic evolution of particles interacting through inter-atomic forces. The model settles to the correct thermal equilibrium distribution in canonical and grand-canonical ensembles and is used to study the grain boundary migration. Finally, a comparison of our results with those obtained by molecular dynamics shows that our approach reproduces the complex atomic-scale dynamics of grain boundary migration correctly.

Keywords