Strain fluctuations and elastic moduli in disordered solids

Daniel M. Sussman; Samuel S. Schoenholz; Ye Xu; Tim Still; A. G. Yodh; Andrea J. Liu

doi:10.1103/PhysRevE.92.022307

Strain fluctuations and elastic moduli in disordered solids

Daniel M. Sussman
, Samuel S. Schoenholz
, Ye Xu
, Tim Still
, A. G. Yodh
, Andrea J. Liu

University of Pennsylvania
Complex Assemblies of Soft Matter

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Recently there has been a surge in interest in using video-microscopy techniques to infer the local mechanical properties of disordered solids. One common approach is to minimize the difference between particle vibrational displacements in a local coarse-graining volume and the displacements that would result from a best-fit affine deformation. Effective moduli are then inferred under the assumption that the components of this best-fit affine deformation tensor have a Boltzmann distribution. In this paper, we combine theoretical arguments with experimental and simulation data to demonstrate that the above does not reveal information about the true elastic moduli of jammed packings and colloidal glasses.

Original language	English
Article number	022307
Journal	Physical Review E - Statistical, Nonlinear, and Soft Matter Physics
Volume	92
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevE.92.022307
State	Published - 20 Aug 2015
Externally published	Yes

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10.1103/PhysRevE.92.022307

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title = "Strain fluctuations and elastic moduli in disordered solids",

abstract = "Recently there has been a surge in interest in using video-microscopy techniques to infer the local mechanical properties of disordered solids. One common approach is to minimize the difference between particle vibrational displacements in a local coarse-graining volume and the displacements that would result from a best-fit affine deformation. Effective moduli are then inferred under the assumption that the components of this best-fit affine deformation tensor have a Boltzmann distribution. In this paper, we combine theoretical arguments with experimental and simulation data to demonstrate that the above does not reveal information about the true elastic moduli of jammed packings and colloidal glasses.",

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AU - Schoenholz, Samuel S.

AU - Xu, Ye

AU - Still, Tim

AU - Yodh, A. G.

AU - Liu, Andrea J.

PY - 2015/8/20

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N2 - Recently there has been a surge in interest in using video-microscopy techniques to infer the local mechanical properties of disordered solids. One common approach is to minimize the difference between particle vibrational displacements in a local coarse-graining volume and the displacements that would result from a best-fit affine deformation. Effective moduli are then inferred under the assumption that the components of this best-fit affine deformation tensor have a Boltzmann distribution. In this paper, we combine theoretical arguments with experimental and simulation data to demonstrate that the above does not reveal information about the true elastic moduli of jammed packings and colloidal glasses.

AB - Recently there has been a surge in interest in using video-microscopy techniques to infer the local mechanical properties of disordered solids. One common approach is to minimize the difference between particle vibrational displacements in a local coarse-graining volume and the displacements that would result from a best-fit affine deformation. Effective moduli are then inferred under the assumption that the components of this best-fit affine deformation tensor have a Boltzmann distribution. In this paper, we combine theoretical arguments with experimental and simulation data to demonstrate that the above does not reveal information about the true elastic moduli of jammed packings and colloidal glasses.

UR - https://www.scopus.com/pages/publications/84940886200

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ER -

Strain fluctuations and elastic moduli in disordered solids

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