Dielectric Elastomers: An Investigation in the Electromechanical Response to Different Ratios of Active and Passive Regions of Dielectric Elastomers

2021 IEEE Pulsed Power Conference (PPC) Pub Date : 2021-12-12 DOI:10.1109/PPC40517.2021.9733151

B. Onyenucheya, M. Ashford, J. Zirnheld, K. Burke

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Abstract

Dielectric elastomers can exhibit load deformation of more than 1692% percent. The deformation is made possible when an external electric field interacts with the dielectric elastomer material, this leads to electrical polarization within the bulk media of the material and charge accumulation on a compliant electrode. This action causes a compressive force that squeezes the film thickness and expands the surface area leading to actuation of the material. The geometric configuration of the complaint electrode on the surface area of the dielectric elastomer can directly influence the electromechanical response of the film. The surface of the dielectric elastomer can be divided into two regions: the active region, which is the surface area of the film that is covered by the compliant electrode, and the passive region, which is the area of the film that remains uncovered. The purpose of this research is to determine the optimal ratio of active vs passive regions and its impact on the electromechanical performance (actuation, dielectric and electromechanical breakdown).

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介电弹性体:介电弹性体有源区和无源区不同比例下的机电响应研究

介电弹性体可表现出超过1692%的载荷变形。当外部电场与介电弹性体材料相互作用时，变形成为可能，这导致材料的体介质内的电极化和电荷在柔性电极上的积累。这一作用产生压缩力，压缩薄膜厚度并扩大表面面积，从而导致材料的驱动。介质弹性体表面申诉电极的几何形状直接影响薄膜的机电响应。介电弹性体的表面可分为两个区域:有源区域，即被柔性电极覆盖的薄膜的表面区域;无源区域，即薄膜保持未覆盖的区域。本研究的目的是确定有源与无源区域的最佳比例及其对机电性能(驱动、介电和机电击穿)的影响。

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2021 IEEE Pulsed Power Conference (PPC)

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