Free-standing tubular DEAs for multi-directional bending

Smart structures and materials. Nondestructive evaluation for health monitoring and diagnostics Pub Date : 2023-04-28 DOI:10.1117/12.2657028

Markus Koenigsdorff, J. Mersch, G. Gerlach

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Abstract

Highly anisotropic, fiber-based structures are a successful concept in nature. Usual dielectric elastomer actuators are entirely soft and rely on the integration of stiff carrier frames for the fragile dielectric membranes. Within this work, a completely soft, fiber-reinforced free-standing tubular actuator concept is presented. The circumferentially running carbon fibers are integrated into the inner electrode of the DEA and stabilize the cross-section, while having negligible impact on the mechanical stiffness in the axial direction. Through the segmentation of the outer electrode of the actuator, active bending in the corresponding directions is achieved. Moreover, if all segments are activated simultaneously, the actuator expands axially. The presented manufacturing approach allows for the adjustment of the dimensions over a wide range of diameters and lengths. Furthermore, the local stiffness of actuators can be tailored by varying the amount of fibers incorporated into the electrode. The electroactive deformation of actuators with different diameter-to-length ratios and fiber densities is investigated.

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用于多向弯曲的独立式管式dea

高度各向异性的纤维基结构在自然界是一个成功的概念。通常的介电弹性体致动器是完全软的，并且依赖于脆性介电膜的刚性载体框架的集成。在这项工作中，提出了一种完全柔软的、纤维增强的独立式管状执行器概念。周向运行的碳纤维融入到DEA的内电极中，稳定了截面，同时对轴向机械刚度的影响可以忽略不计。通过对执行器外电极的分割，实现相应方向的主动弯曲。此外，如果所有部分同时激活，执行器将向轴向扩展。提出的制造方法允许在直径和长度的大范围内调整尺寸。此外，执行器的局部刚度可以通过改变纳入电极的纤维量来定制。研究了不同径长比和纤维密度致动器的电致变形。

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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Smart structures and materials. Nondestructive evaluation for health monitoring and diagnostics

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