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Main Author: Kozioł, Zbigniew
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.07633
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author Kozioł, Zbigniew
author_facet Kozioł, Zbigniew
contents The model of a chain of springs and masses (CSM), originating from the works of Schrödinger (1914), and Pater (1974), is found suitable as an analytical description of the dynamics of layers in orientated FCC crystals. An analytical extension of that model has been developed for the case of linear-in-time ramp pressure applied to a sample surface. Examples are provided of molecular dynamics (MD) simulations, confirming the usefulness of the model in the description of dynamic effects on steel 310S under pressure. Qualitatively the same results have been obtained by us for several other medium-entropy alloys CoNiCr (with EAM and MEAM inter-atomic potentials), and CoNiV (with MEAM potential). For studies of dynamic stability on large sizes of samples and for long times, the proposed earlier table-style harmonic interlayer potential has been used. The results of MD simulations suggest that the dynamics of the CSM model of perfectly ordered matter is described by stretched-exponential time functions, and it is characterised by simple scaling relations in time and size of the sample.
format Preprint
id arxiv_https___arxiv_org_abs_2411_07633
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Stretched-exponential stress dynamics in chain of springs and masses model of crystals: analytical results and MD simulations
Kozioł, Zbigniew
Mesoscale and Nanoscale Physics
The model of a chain of springs and masses (CSM), originating from the works of Schrödinger (1914), and Pater (1974), is found suitable as an analytical description of the dynamics of layers in orientated FCC crystals. An analytical extension of that model has been developed for the case of linear-in-time ramp pressure applied to a sample surface. Examples are provided of molecular dynamics (MD) simulations, confirming the usefulness of the model in the description of dynamic effects on steel 310S under pressure. Qualitatively the same results have been obtained by us for several other medium-entropy alloys CoNiCr (with EAM and MEAM inter-atomic potentials), and CoNiV (with MEAM potential). For studies of dynamic stability on large sizes of samples and for long times, the proposed earlier table-style harmonic interlayer potential has been used. The results of MD simulations suggest that the dynamics of the CSM model of perfectly ordered matter is described by stretched-exponential time functions, and it is characterised by simple scaling relations in time and size of the sample.
title Stretched-exponential stress dynamics in chain of springs and masses model of crystals: analytical results and MD simulations
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2411.07633