Nematic elastomers: From a microscopic model to macroscopic elasticity theory

Xiangjun Xing; Stephan Pfahl; Swagatam Mukhopadhyay; Paul M. Goldbart; Annette Zippelius

doi:10.1103/PhysRevE.77.051802

Nematic elastomers: From a microscopic model to macroscopic elasticity theory

Xiangjun Xing
, Stephan Pfahl
, Swagatam Mukhopadhyay
, Paul M. Goldbart
, Annette Zippelius

Physics and Astronomy

Stony Brook University

Syracuse University
Johannes Gutenberg University Mainz
Rutgers - The State University of New Jersey, New Brunswick
University of Göttingen
Max Planck Institute for Dynamics and Self-Organization

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

18 Scopus citations

Abstract

A Landau theory is constructed for the gelation transition in cross-linked polymer systems possessing spontaneous nematic ordering, based on symmetry principles and the concept of an order parameter for the amorphous solid state. This theory is substantiated with help of a simple microscopic model of cross-linked dimers. Minimization of the Landau free energy in the presence of nematic order yields the neoclassical theory of the elasticity of nematic elastomers and, in the isotropic limit, the classical theory of isotropic elasticity. These phenomenological theories of elasticity are thereby derived from a microscopic model, and it is furthermore demonstrated that they are universal mean-field descriptions of the elasticity for all chemical gels and vulcanized media.

Original language	English
Article number	051802
Journal	Physical Review E - Statistical, Nonlinear, and Soft Matter Physics
Volume	77
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevE.77.051802
State	Published - May 8 2008

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title = "Nematic elastomers: From a microscopic model to macroscopic elasticity theory",

abstract = "A Landau theory is constructed for the gelation transition in cross-linked polymer systems possessing spontaneous nematic ordering, based on symmetry principles and the concept of an order parameter for the amorphous solid state. This theory is substantiated with help of a simple microscopic model of cross-linked dimers. Minimization of the Landau free energy in the presence of nematic order yields the neoclassical theory of the elasticity of nematic elastomers and, in the isotropic limit, the classical theory of isotropic elasticity. These phenomenological theories of elasticity are thereby derived from a microscopic model, and it is furthermore demonstrated that they are universal mean-field descriptions of the elasticity for all chemical gels and vulcanized media.",

author = "Xiangjun Xing and Stephan Pfahl and Swagatam Mukhopadhyay and Goldbart, \{Paul M.\} and Annette Zippelius",

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AU - Xing, Xiangjun

AU - Pfahl, Stephan

AU - Mukhopadhyay, Swagatam

AU - Goldbart, Paul M.

AU - Zippelius, Annette

PY - 2008/5/8

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N2 - A Landau theory is constructed for the gelation transition in cross-linked polymer systems possessing spontaneous nematic ordering, based on symmetry principles and the concept of an order parameter for the amorphous solid state. This theory is substantiated with help of a simple microscopic model of cross-linked dimers. Minimization of the Landau free energy in the presence of nematic order yields the neoclassical theory of the elasticity of nematic elastomers and, in the isotropic limit, the classical theory of isotropic elasticity. These phenomenological theories of elasticity are thereby derived from a microscopic model, and it is furthermore demonstrated that they are universal mean-field descriptions of the elasticity for all chemical gels and vulcanized media.

AB - A Landau theory is constructed for the gelation transition in cross-linked polymer systems possessing spontaneous nematic ordering, based on symmetry principles and the concept of an order parameter for the amorphous solid state. This theory is substantiated with help of a simple microscopic model of cross-linked dimers. Minimization of the Landau free energy in the presence of nematic order yields the neoclassical theory of the elasticity of nematic elastomers and, in the isotropic limit, the classical theory of isotropic elasticity. These phenomenological theories of elasticity are thereby derived from a microscopic model, and it is furthermore demonstrated that they are universal mean-field descriptions of the elasticity for all chemical gels and vulcanized media.

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DO - 10.1103/PhysRevE.77.051802

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JO - Physical Review E - Statistical, Nonlinear, and Soft Matter Physics

JF - Physical Review E - Statistical, Nonlinear, and Soft Matter Physics

IS - 5

M1 - 051802

ER -

Nematic elastomers: From a microscopic model to macroscopic elasticity theory

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