Issue 37, 2013

Nonequilibrium thermodynamics and glassy rheology

Abstract

Mechanically driven glassy systems and complex fluids exhibit a wealth of rheological behaviors that call for theoretical understanding and predictive modeling. A distinct feature of these nonequilibrium systems is their dynamically evolving state of structural disorder, which determines their rheological responses. Here we highlight a recently developed nonequilibrium thermodynamic framework in which the structural state is characterized by an evolving effective disorder temperature that may differ from the ordinary thermal temperature. The specific properties of each physical system of interest are described by a small set of coarse-grained internal state variables and their associated energies and entropies. The dynamics of the internal variables, together with the flow of energy and entropy between the different parts of the driven system, determine continuum-level rheological constitutive laws. We conclude with brief descriptions of several successful applications of this framework.

Graphical abstract: Nonequilibrium thermodynamics and glassy rheology

Article information

Article type
Highlight
Submitted
21 May 2013
Accepted
24 Jun 2013
First published
28 Jun 2013

Soft Matter, 2013,9, 8786-8791

Nonequilibrium thermodynamics and glassy rheology

E. Bouchbinder and J. S. Langer, Soft Matter, 2013, 9, 8786 DOI: 10.1039/C3SM51413G

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