Linking microscopic and macroscopic response in disordered solids
Abstract
The modulus of a rigid network of harmonic springs depends on the sum of the energies in each of the bonds due to the applied distortion: compression in the case of the bulk modulus, , or shear in the case of the shear modulus, . The distortion need not be global and we introduce a local modulus, , associated with changing the equilibrium length of a single bond, , in the network. We show that is useful for understanding many aspects of the mechanical response of the entire system. For example, it allows an understanding, and efficient computation, of how each bond in a network contributes to global properties such as and and sheds light on how a particular bond's contribution to one modulus is, or is not, correlated with its contribution to another.
Cite
@article{arxiv.1706.06153,
title = {Linking microscopic and macroscopic response in disordered solids},
author = {Daniel Hexner and Andrea J. Liu and Sidney R. Nagel},
journal= {arXiv preprint arXiv:1706.06153},
year = {2018}
}
Comments
7 pages, 6 figures