Bending-induced director reorientation of a nematic liquid crystal elastomer bonded to a hyperelastic substrate

arXiv: Soft Condensed Matter Pub Date : 2020-03-09 DOI:10.1063/5.0038822

Yang Liu, Wendi Ma, H. Dai

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引用次数: 10

Abstract

In this paper, the two-dimensional pure bending of a hyperelastic substrate coated by a nematic liquid crystal elastomer (abbreviated as NLCE) is studied within the framework of nonlinear elasticity. The governing system, arising from the deformational momentum balance, the orientational momentum balance and the mechanical constraint, is formulated, and the corresponding exact solution is derived for a given constitutive model. It is found that there exist two different bending solutions. In order to determine which the preferred one is, we compare the total potential energy for both solutions and find that the two energy curves may have an intersection point at a critical value of the bending angle $\alpha_c$ for some material parameters. In particular, the director $\bm n$ abruptly rotates $\dfrac{\pi}{2}$ from one solution to another at $\alpha_c$, which indicates a director reorientation (or jump). Furthermore, the effects of different material and geometric parameters on the bending deformation and the transition angle $\alpha_c$ can be revealed using the obtained bending solutions. Meanwhile, the exact solution can offer a benchmark problem for validating the accuracy of approximated plate models for liquid crystal elastomers.

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结合超弹性基底的向列液晶弹性体的弯曲诱导定向重定向

本文在非线性弹性的框架下，研究了向列液晶弹性体(简称NLCE)包覆的超弹性基底的二维纯弯曲。推导了由变形动量平衡、方向动量平衡和力学约束构成的控制系统，并推导了给定本构模型的精确解。发现存在两种不同的弯曲解。为了确定哪一个是首选，我们比较了两种解的总势能，发现对于某些材料参数，两条能量曲线可能在弯曲角的临界值$\alpha_c$处有交点。特别是，指示器$\bm n$突然将$\dfrac{\pi}{2}$从一个解决方案旋转到$\alpha_c$处的另一个解决方案，这表明指示器重新定向(或跳转)。此外，利用得到的弯曲解可以揭示不同材料和几何参数对弯曲变形和过渡角$\alpha_c$的影响。同时，该精确解可为验证液晶弹性体平板近似模型的精度提供一个基准问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Soft Condensed Matter

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