English

Plastic response and correlations in athermally sheared amorphous solids

Soft Condensed Matter 2016-10-12 v1 Materials Science

Abstract

The onset of irreversible deformation in low-temperature amorphous solids is due to the accumulation of elementary events, consisting of spacially and temporally localized atomic rearrangements involving only a few tens of atoms. Recently, numerical and experimental work addressed the issue of spatio-temporal correlations between these plastic events. Here, we provide further insight into these correlations by investigating, via molecular dynamics (MD) simulations, the plastic response of a two-dimensional amorphous solid to artificially triggered local shear transformations. We show that while the plastic response is virtually absent in as-quenched configurations, it becomes apparent if a shear strain was previously imposed on the system. Plastic response has a four-fold symmetry which is characteristic of the shear stress redistribution following the local transformation. At high shear rate we report evidence for a fluctuation-dissipation relation, connecting plastic response and correlation, which seems to break down if lower shear rates are considered.

Keywords

Cite

@article{arxiv.1606.08745,
  title  = {Plastic response and correlations in athermally sheared amorphous solids},
  author = {Francesco Puosi and Joerg Rottler and Jean-Louis Barrat},
  journal= {arXiv preprint arXiv:1606.08745},
  year   = {2016}
}
R2 v1 2026-06-22T14:36:57.940Z