Self-propelled two-dimensional rotary piezoelectric plate actuator

Smart structures and materials. Nondestructive evaluation for health monitoring and diagnostics Pub Date : 2023-04-28 DOI:10.1117/12.2657664

Sz-Rung Lai, Y. Hsu, Chih-Kung Lee

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Abstract

The aim of this study is to develop a self-propelled, two-dimensional rotary piezoelectric plate actuator driven by a superposition of bending modes. It is achieved by generating two opposite-direction traveling waves on a thin rectangular plate. The structure design of this rotational actuator was simple and a cost-effective. The structure was composed of a 50mm*41mm*0.5mm stainless steel plate and two 50mm*20mm*0.2mm piezoelectric PZTs sheets attached to its surface. The boundary conditions were simply supported in the x-direction and free ends in the y-direction. To generate traveling waves in opposite directions in the x and y directions, mode 12, mode 21, and mode 22 bending modes were chosen using a multi-integer frequency, two-mode driving method (MIF-TM). An analytical solution was derived to optimize the driving efficiency. The Hilbert transform is also applied to identify the optimal driving parameters. It is demonstrated that traveling waves in opposite directions can be generated. Mathematical modeling and experimental studies are both detailed in this paper.

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自走式二维旋转压电板驱动器

本研究的目的是开发一种由弯曲模态叠加驱动的自推进二维旋转压电板驱动器。它是通过在薄矩形板上产生两个方向相反的行波来实现的。该旋转作动器结构设计简单，性价比高。该结构由一块50mm*41mm*0.5mm的不锈钢板和两片50mm*20mm*0.2mm的压电PZTs片附着在其表面组成。边界条件在x方向上简单支撑，在y方向上自由端。为了在x和y方向上产生相反方向的行波，采用多整数频率双模驱动方法(MIF-TM)选择了12、21和22型弯曲模态。推导了优化驱动效率的解析解。利用希尔伯特变换辨识最优驱动参数。结果表明，可以产生相反方向的行波。本文详细地进行了数学建模和实验研究。

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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