交联半刚性聚合物网络的非线性力学结构作用。

The role of structure in the nonlinear mechanics of cross-linked semiflexible polymer networks.

机构信息

NUS Graduate School for Integrative Sciences and Engineering, Singapore 117456.

出版信息

J Chem Phys. 2012 Feb 14;136(6):065101. doi: 10.1063/1.3682779.

Abstract

The microstructural basis of the characteristic nonlinear mechanics of biopolymer networks remains unclear. We present a 3D network model of realistic, cross-linked semiflexible fibers to study strain-stiffening and the effect of fiber volume-occupancy. We identify two structural parameters, namely, network connectivity and fiber entanglements, that fully govern the nonlinear response from small to large strains. The results also reveal distinct deformation mechanisms at different length scales and, in particular, the contributions of heterogeneity at short length scales.

摘要

生物聚合物网络特征非线性力学的微观结构基础仍不清楚。我们提出了一个真实交联半柔性纤维的 3D 网络模型，以研究应变硬化和纤维体积占有率的影响。我们确定了两个结构参数，即网络连通性和纤维缠结，它们完全控制从小应变到大应变的非线性响应。研究结果还揭示了不同长度尺度下的不同变形机制，特别是短长度尺度下的异质性的贡献。

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交联半刚性聚合物网络的非线性力学结构作用。

The role of structure in the nonlinear mechanics of cross-linked semiflexible polymer networks.

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