Stress correlations in near-crystalline packings

Maharana, Roshan; Ramola, Kabir

doi:10.21468/SciPostPhys.17.1.012

SciPost Physics

Stress correlations in near-crystalline packings

Roshan Maharana, Kabir Ramola

SciPost Phys. 17, 012 (2024) · published 15 July 2024

doi: 10.21468/SciPostPhys.17.1.012
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Abstract

We derive exact results for stress correlations in near-crystalline systems in two and three dimensions. We study energy minimized configurations of particles interacting through Harmonic as well as Lennard-Jones potentials, for varying degrees of microscopic disorder and quenched forces on grains. Our findings demonstrate that the macroscopic elastic properties of such near-crystalline packings remain unchanged within a certain disorder threshold, yet they can be influenced by various factors, including packing density, pressure, and the strength of inter-particle interactions. We show that the stress correlations in such systems display anisotropic behavior at large lengthscales and are significantly influenced by the pre-stress of the system. The anisotropic nature of these correlations remains unaffected as we increase the strength of the disorder. Additionally, we derive the large lengthscale behavior for the change in the local stress components that shows a $1/r^d$ radial decay for the case of particle size disorder and a $1/r^{d-1}$ behavior for quenched forces introduced into a crystalline network. Finally, we verify our theoretical results numerically using energy-minimised static particle configurations.

TY  - JOUR
PB  - SciPost Foundation
DO  - 10.21468/SciPostPhys.17.1.012
TI  - Stress correlations in near-crystalline packings
PY  - 2024/07/15
UR  - https://scipost.org/SciPostPhys.17.1.012
JF  - SciPost Physics
JA  - SciPost Phys.
VL  - 17
IS  - 1
SP  - 012
A1  - Maharana, Roshan
AU  - Ramola, Kabir
AB  - We derive exact results for stress correlations in near-crystalline systems in two and three dimensions. We study energy minimized configurations of particles interacting through Harmonic as well as Lennard-Jones potentials, for varying degrees of microscopic disorder and quenched forces on grains. Our findings demonstrate that the macroscopic elastic properties of such near-crystalline packings remain unchanged within a certain disorder threshold, yet they can be influenced by various factors, including packing density, pressure, and the strength of inter-particle interactions. We show that the stress correlations in such systems display anisotropic behavior at large lengthscales and are significantly influenced by the pre-stress of the system. The anisotropic nature of these correlations remains unaffected as we increase the strength of the disorder. Additionally, we derive the large lengthscale behavior for the change in the local stress components that shows a $1/r^d$ radial decay for the case of particle size disorder and a $1/r^{d-1}$ behavior for quenched forces introduced into a crystalline network. Finally, we verify our theoretical results numerically using energy-minimised static particle configurations.
ER  -

@Article{10.21468/SciPostPhys.17.1.012,
	title={{Stress correlations in near-crystalline packings}},
	author={Roshan Maharana and Kabir Ramola},
	journal={SciPost Phys.},
	volume={17},
	pages={012},
	year={2024},
	publisher={SciPost},
	doi={10.21468/SciPostPhys.17.1.012},
	url={https://scipost.org/10.21468/SciPostPhys.17.1.012},
}

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¹ Roshan Maharana,
¹ Kabir Ramola

¹ टाटा मूलभूत अनुसंधान संस्थान / Tata Institute of Fundamental Research [TIFR]

Funders for the research work leading to this publication