Analysis and simulation of a model of polyelectrolyte gel in one spatial dimension

Haoran Chen; Maria Carme Calderer; Yoichiro Mori

doi:10.1088/0951-7715/27/6/1241

Analysis and simulation of a model of polyelectrolyte gel in one spatial dimension

Haoran Chen, Maria Carme Calderer, Yoichiro Mori

University of Minnesota Twin Cities

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

8 Citations (Scopus)

Abstract

We analyse a model of polyelectrolyte gels that was proposed by the authors in previous work. We first demonstrate that the model can be derived using Onsager's variational principle, a general procedure for obtaining equations in soft condensed matter physics. The model is shown to have a unique steady state under the assumption that a suitably defined mechanical energy density satisfies a convexity condition. We then perform a detailed study of the stability of the steady state in the spatially one-dimensional case, obtaining bounds on the relaxation rate. Numerical simulations for the spatially one-dimensional problem are presented, confirming the analytical calculations on stability.

Original language	English
Pages (from-to)	1241-1285
Number of pages	45
Journal	Nonlinearity
Volume	27
Issue number	6
DOIs	https://doi.org/10.1088/0951-7715/27/6/1241
Publication status	Published - Jun 2014
Externally published	Yes

Keywords

Onsagers variational principle
ionic electrodiffusion
polyelectrolyte gel
stability analysis
two phase model

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10.1088/0951-7715/27/6/1241

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abstract = "We analyse a model of polyelectrolyte gels that was proposed by the authors in previous work. We first demonstrate that the model can be derived using Onsager's variational principle, a general procedure for obtaining equations in soft condensed matter physics. The model is shown to have a unique steady state under the assumption that a suitably defined mechanical energy density satisfies a convexity condition. We then perform a detailed study of the stability of the steady state in the spatially one-dimensional case, obtaining bounds on the relaxation rate. Numerical simulations for the spatially one-dimensional problem are presented, confirming the analytical calculations on stability.",

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N2 - We analyse a model of polyelectrolyte gels that was proposed by the authors in previous work. We first demonstrate that the model can be derived using Onsager's variational principle, a general procedure for obtaining equations in soft condensed matter physics. The model is shown to have a unique steady state under the assumption that a suitably defined mechanical energy density satisfies a convexity condition. We then perform a detailed study of the stability of the steady state in the spatially one-dimensional case, obtaining bounds on the relaxation rate. Numerical simulations for the spatially one-dimensional problem are presented, confirming the analytical calculations on stability.

AB - We analyse a model of polyelectrolyte gels that was proposed by the authors in previous work. We first demonstrate that the model can be derived using Onsager's variational principle, a general procedure for obtaining equations in soft condensed matter physics. The model is shown to have a unique steady state under the assumption that a suitably defined mechanical energy density satisfies a convexity condition. We then perform a detailed study of the stability of the steady state in the spatially one-dimensional case, obtaining bounds on the relaxation rate. Numerical simulations for the spatially one-dimensional problem are presented, confirming the analytical calculations on stability.

KW - Onsagers variational principle

KW - ionic electrodiffusion

KW - polyelectrolyte gel

KW - stability analysis

KW - two phase model

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SP - 1241

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JO - Nonlinearity

JF - Nonlinearity

IS - 6

ER -

Analysis and simulation of a model of polyelectrolyte gel in one spatial dimension

Abstract

Keywords

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