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向列型壳层的流体动力学理论:曲率、流动与取向之间的相互作用

Hydrodynamic theory for nematic shells: The interplay among curvature, flow, and alignment.

作者信息

Napoli Gaetano, Vergori Luigi

机构信息

Dipartimento di Ingegneria dell'Innovazione, Università del Salento, via per Monteroni, Edificio "Corpo O", 73100 Lecce, Italy.

School of Mathematics and Statistics, University of Glasgow, University Gardens 15, G12 8QW Glasgow, United Kingdom.

出版信息

Phys Rev E. 2016 Aug;94(2-1):020701. doi: 10.1103/PhysRevE.94.020701. Epub 2016 Aug 8.

DOI:10.1103/PhysRevE.94.020701
PMID:27627231
Abstract

We derive the hydrodynamic equations for nematic liquid crystals lying on curved substrates. We invoke the Lagrange-Rayleigh variational principle to adapt the Ericksen-Leslie theory to two-dimensional nematics in which a degenerate anchoring of the molecules on the substrate is enforced. The only constitutive assumptions in this scheme concern the free-energy density, given by the two-dimensional Frank potential, and the density of dissipation which is required to satisfy appropriate invariance requirements. The resulting equations of motion couple the velocity field, the director alignment, and the curvature of the shell. To illustrate our findings, we consider the effect of a simple shear flow on the alignment of a nematic lying on a cylindrical shell.

摘要

我们推导了位于弯曲基底上的向列型液晶的流体动力学方程。我们运用拉格朗日 - 瑞利变分原理,将埃里克森 - 莱斯利理论应用于二维向列相,其中分子在基底上存在简并锚定。该方案中唯一的本构假设涉及由二维弗兰克势给出的自由能密度,以及满足适当不变性要求所需的耗散密度。由此产生的运动方程将速度场、指向矢排列和壳体曲率耦合在一起。为了说明我们的发现,我们考虑简单剪切流对位于圆柱壳上的向列相排列的影响。

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