On the Mechanical Behaviour in Stiffness Compensated Piezoelectric Beams - An Experimental Investigation Towards Energy Harvesting

Volume 10: 33rd Conference on Mechanical Vibration and Sound (VIB) Pub Date : 2021-08-17 DOI:10.1115/detc2021-68922

E. van de Wetering, T. Blad, R. V. van Ostayen

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Abstract

In this work, a piezoelectric beam is stiffness compensated through adding a negative stiffness formed by attracting magnets. The mechanism’s purpose is low-frequency energy harvesting. The effect of deformation speed on the beam’s stiffness is investigated by force-displacement measurements taken at different speeds and with different load resistors connected. The effect of the load resistance on the beam’s stiffness has been found to be strongly dependent on the deformation speed. A load that results in the same stiffness as in a closed circuit at low deformation speed results in a stiffer response at a faster deformation speed. Also, when the beam is brought close to static balance with a certain load resistance connected, alteration of the load resistance has a great influence on the attained stiffness level. Furthermore, memory effects in the hysteresis found in piezoelectric actuators, related between input voltage and displacement, were also confirmed between displacement and force in sensor application.

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刚度补偿压电梁的力学性能研究——能量收集的实验研究

在这项工作中，压电梁通过增加由吸引磁铁形成的负刚度来补偿刚度。该机制的目的是低频能量收集。通过不同速度下连接不同负载电阻的力-位移测量，研究了变形速度对梁刚度的影响。荷载抗力对梁刚度的影响与变形速度密切相关。在低变形速度下产生与闭环相同的刚度的载荷，在更快的变形速度下会产生更强的响应。当梁接近静平衡并连接一定的荷载阻力时，荷载阻力的变化对获得的刚度水平有很大的影响。此外，在压电致动器中发现的迟滞中的记忆效应，与输入电压和位移有关，也证实了传感器应用中位移和力之间的记忆效应。

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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Volume 10: 33rd Conference on Mechanical Vibration and Sound (VIB)

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