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Slow relaxation dynamics in binary glasses during stress-controlled, tension-compression cyclic loading

Soft Condensed Matter 2018-07-09 v1 Disordered Systems and Neural Networks Materials Science

Abstract

The effect of cyclic loading on relaxation dynamics and mechanical properties of metallic glasses is studied using molecular dynamics simulations. We consider the Kob-Andersen three-dimensional binary mixture rapidly cooled across the glass transition and subjected to thousands of tension-compression cycles in the elastic range. It was found that during cyclic loading at constant pressure, the system is relocated to progressively lower levels of the potential energy, thus promoting greater densification and higher strength. Furthermore, with increasing stress amplitude, the average glass density increases and the minimum of the potential energy becomes deeper, while the elastic modulus is reduced. The typical size of clusters of atoms with large nonaffine displacements becomes smaller over consecutive cycles, which correlates with the gradual decrease in the potential energy. These results are important for thermomechanical processing of metallic glasses with improved mechanical properties.

Keywords

Cite

@article{arxiv.1804.07189,
  title  = {Slow relaxation dynamics in binary glasses during stress-controlled, tension-compression cyclic loading},
  author = {Nikolai V. Priezjev},
  journal= {arXiv preprint arXiv:1804.07189},
  year   = {2018}
}

Comments

19 pages, 7 figures

R2 v1 2026-06-23T01:28:49.661Z