Darius Alix-Williams scite author profile

Darius Alix-Williams

3Publications

16Citation Statements Received

71Citation Statements Given

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174

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Johns Hopkins University

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Shear band broadening in simulated glasses

Alix-Williams

Falk

2018

Phys. Rev. E

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A model for shear band width as a function of applied strain is proposed that describes shear bands as pulled fronts which propagate into an unsteady state. The evolving structural state of material ahead of and behind the front is defined according to effective temperature sheartransformation-zone (ET-STZ) theory. The model is compared to another that is based on dimensional analysis and assumes shear band dynamics is governed by the strain rate within the shear band. These models are evaluated on three material systems: a two-dimensional binary Lennard-Jones glass, a Cu 64 Zr 36 glass modeled using an embedded atom method (EAM) potential, and a Si glass modeled using the Stillinger-Weber potential. Shear bands form in all systems across a variety of quench rates and appear to either broaden indefinitely or saturate to a finite width. The dimensional analysis based model appears to apply only when band growth is unconstrained, indicating the dominance of a single time scale in the early stages of shear band development. The front propagation model, which reduces to the dimensional analysis model, applies to both constrained and unconstrained band growth. This result suggests that competition between the rate of shear-induced configurational disordering and thermal relaxation sets a maximum width for shear bands in a variety of material systems.

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Manifold learning for coarse-graining atomistic simulations: Application to amorphous solids

et al. 2021

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Revealing local order via high energy EELS

Hart

Lang

et al. 2023

Materials Today Nano

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