THEORY AND SIMULATION OF TEXTURE TRANSFORMATIONS IN CHIRAL SYSTEMS: APPLICATIONS TO BIOLOGICAL FIBROUS COMPOSITES

机译：手性体系中的结构转变理论与模拟：在生物纤维复合材料中的应用

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Numerous studies have shown that chiral biological structures share common properties with liquids crystals, in particular a tendency to assemble in three-dimensional lattices very similar to that of chiral nematics. Biological fibrous composites are usually found in planar (film) and cylindrical (fibber) twist geometries. In this work, the formation process of the planar twist architecture is numerically investigated using a mesoscopic model based on the Landau-de Gennes theory of chiral nematic liquid crystals. The simulations and visualizations of the computed textures provide new information on some of the principles that govern the formation of chiral biological structures. It is found that a defect-free planar twist architecture arises from a chiral front propagation process with a fully relaxed wake.

机译：大量研究表明，手性生物结构与液晶具有共同的特性，特别是在与手性向列相非常相似的三维晶格中聚集的趋势。生物纤维复合材料通常存在于平面（薄膜）和圆柱形（纤维）扭曲几何形状中。在这项工作中，使用基于Landau-de Gennes手性向列液晶理论的介观模型，对平面扭曲结构的形成过程进行了数值研究。计算纹理的模拟和可视化为控制手性生物结构形成的某些原理提供了新信息。发现无缺陷的平面扭曲结构源于具有完全松弛的尾流的手性前部传播过程。

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《Symposium on Advances in Liquid Crystalline Materials and Technologies, Nov 26-29, 2001, Boston, Massachusetts, U.S.A.》|2001年|p.141-146|共6页
会议地点 Boston MA(US);Boston MA(US)
作者
Oino De Luca; Alejandro D. Rey;
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Department of Chemical Engineering McGill University, 3610 University Street Montreal, Quebec Canada H3A 2B2;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
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1. Chiral front propagation in liquid-crystalline materials: Formation of the planar monodomain twisted plywood architecture of biological fibrous composites [J] . De Luca G, Rey AD Physical review, E. Statistical physics, plasmas, fluids, and related interdisciplinary topics . 2004,第1aPta1期

机译：液晶材料中的手性锋面传播：生物纤维复合材料的平面单畴扭曲胶合板结构的形成
2. A simple formula for the effective complex conductivity of periodic fibrous composites with interfacial impedance and applications to biological tissues [J] . Bisegna P, Caselli F Journal of Physics, D. Applied Physics: A Europhysics Journal . 2008,第11期

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4. Theory and simulation of texture transformations in chiral systems:applications to biological fibrous composites [C] . Gino de Luca, Aljandro D.Rey Materials Research Society Symposium . 2002

机译：手性系统中纹理变换的理论与仿真：生物纤维复合材料的应用
5. Theory and simulation of microstructure transformation in cholesteric liquid crystalline materials: Applications to biological fibrous composites. [D] . De Luca, Gino. 2003

机译：胆甾型液晶材料中微观结构转变的理论和模拟：在生物纤维复合材料中的应用。
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THEORY AND SIMULATION OF TEXTURE TRANSFORMATIONS IN CHIRAL SYSTEMS: APPLICATIONS TO BIOLOGICAL FIBROUS COMPOSITES

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