Predicting plasticity in disordered solids from structural indicators

Open Access
Authors
  • B. Shang
  • S.A. Ridout
  • B. Xu
  • G. Zhang
  • P.K. Morse
  • J.-L. Barrat
  • L. Berthier
  • M.L. Falk
  • P. Guan
  • A.J. Liu
  • K. Martens
  • S. Sastry
  • D. Vandembroucq
  • E. Lerner ORCID logo
  • M.L. Manning
Publication date 11-2020
Journal Physical Review Materials
Article number 113609
Volume | Issue number 4 | 11
Number of pages 19
Organisations
  • Faculty of Science (FNWI) - Institute of Physics (IoP) - Institute for Theoretical Physics Amsterdam (ITFA)
  • Faculty of Science (FNWI) - Van 't Hoff Institute for Molecular Sciences (HIMS)
Abstract

Amorphous solids lack long-range order. Therefore identifying structural defects - akin to dislocations in crystalline solids - that carry plastic flow in these systems remains a daunting challenge. By comparing many different structural indicators in computational models of glasses, under a variety of conditions we carefully assess which of these indicators are able to robustly identify the structural defects responsible for plastic flow in amorphous solids. We further demonstrate that the density of defects changes as a function of material preparation and strain in a manner that is highly correlated with the macroscopic material response. Our work represents an important step towards predicting how and when an amorphous solid will fail from its microscopic structure.
Document type Article
Note ©2020 American Physical Society
Language English
Published at https://doi.org/10.1103/PhysRevMaterials.4.113609
Other links https://www.scopus.com/pages/publications/85097179649
Downloads
PhysRevMaterials.4.113609 (Final published version)
Supplementary materials
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