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Accordion-like Actuators of Multiple 3D Patterned Liquid Crystal Polymer Films

机译:多个3D图案化液晶聚合物薄膜的手风琴状致动器

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摘要

This work describes the fabrication, characterization, and modelling of liquid crystalline polymer network films with a multiple patterned 3D nematic director profile, a stimuli-responsive material that exhibits complex mechanical actuation under change of temperature or pH. These films have a discrete alternating striped or checkerboard director profile in the plane, and a 90-degree twist through the depth of the film. When actuated via heating, the striped films deform into accordion-like folds, while the film patterned with a checkerboard microstructure buckles out-of-plane. Furthermore, striped films are fabricated so that they also deform into an accordion shaped fold, by a change of pH in an aqueous environment. Three-dimensional finite element simulations and elasticity analysis provide insight into the dependence of shape evolution on director microstructure and the sample's aspect ratio.
机译:这项工作描述了具有多个图案化3D向列导向器轮廓的液晶聚合物网络薄膜的制造,表征和建模,该图案是一种在温度或pH值变化时表现出复杂机械驱动力的刺激响应材料。这些薄膜在平面上具有离散的交替条纹或棋盘格导向轮廓,并且在薄膜的深度方向上呈90度扭曲。当通过加热驱动时,条状薄膜会变形为手风琴状的褶皱,而具有棋盘格微结构图案的薄膜会在平面外弯曲。此外,条纹膜被制造成使得它们也可以通过在水性环境中改变pH而变形为手风琴状的褶皱。三维有限元模拟和弹性分析可洞悉形状演变对导向器微结构的依赖性以及样品的纵横比。

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  • 来源
    《Advanced Functional Materials》 |2014年第9期|1251-1258|共8页
  • 作者

    Laurens T. de Haan; Vianney Gimenez-Pinto; Andrew Konya; Thanh-Son Nguyen; Julien M. N. Verjans; Carlos Sdnchez-Somolinos; Jonathan V. Selinger; Robin L. B. Selinger; DirkJ. Broer; Albertus P. H.J. Schenning;

  • 作者单位

    Functional Organic Materials and Devices Department of Chemical Engineering and Chemistry Eindhoven University of Technology Den Dolech 2, 5600, MB Eindhoven, The Netherlands;

    Chemical Physics Interdisciplinary Program Liquid Crystal Institute Kent State University Kent, OH, 44242, USA;

    Chemical Physics Interdisciplinary Program Liquid Crystal Institute Kent State University Kent, OH, 44242, USA;

    Chemical Physics Interdisciplinary Program Liquid Crystal Institute Kent State University Kent, OH, 44242, USA;

    Functional Organic Materials and Devices Department of Chemical Engineering and Chemistry Eindhoven University of Technology Den Dolech 2, 5600, MB Eindhoven, The Netherlands;

    Instituto de Ciencia de Materiales de Arag6n Departamento de Fi'sica de la Materia Condensada CSIC-Universidad de Zaragoza, Zaragoza, Spain;

    Chemical Physics Interdisciplinary Program Liquid Crystal Institute Kent State University Kent, OH, 44242, USA;

    Chemical Physics Interdisciplinary Program Liquid Crystal Institute Kent State University Kent, OH, 44242, USA;

    Functional Organic Materials and Devices Department of Chemical Engineering and Chemistry Eindhoven University of Technology Den Dolech 2, 5600, MB Eindhoven, The Netherlands;

    Functional Organic Materials and Devices Department of Chemical Engineering and Chemistry Eindhoven University of Technology Den Dolech 2, 5600, MB Eindhoven, The Netherlands;

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