Nonlinear vibration analysis of piezoelectric bending actuators: Theoretical and experimental studies

IF 1 4区工程技术 Q4 MECHANICS

Comptes Rendus Mecanique Pub Date : 2019-12-01 DOI:10.1016/j.crme.2019.10.007

Pouyan Shahabi, Hamed Ghafarirad, Afshin Taghvaeipour

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引用次数: 9

Abstract

Piezoelectric bimorph actuators are used in a variety of applications, including micro positioning, vibration control, and micro robotics. The nature of the aforementioned applications calls for the dynamic characteristics identification of actuator at the embodiment design stage. For decades, many linear models have been presented to describe the dynamic behavior of this type of actuators; however, in many situations, such as resonant actuation, the piezoelectric actuators exhibit a softening nonlinear behavior; hence, an accurate dynamic model is demanded to properly predict the nonlinearity. In this study, first, the nonlinear stress–strain relationship of a piezoelectric material at high frequencies is modified. Then, based on the obtained constitutive equations and Euler–Bernoulli beam theory, a continuous nonlinear dynamic model for a piezoelectric bending actuator is presented. Next, the method of multiple scales is used to solve the discretized nonlinear differential equations. Finally, the results are compared with the ones obtained experimentally and nonlinear parameters are identified considering frequency response and phase response simultaneously. Also, in order to evaluate the accuracy of the proposed model, it is tested out of the identification range as well.

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压电弯曲作动器的非线性振动分析:理论与实验研究

压电双晶片致动器用于各种应用，包括微定位，振动控制和微型机器人。上述应用的性质要求在实施例设计阶段对执行器进行动态特性识别。几十年来，已经提出了许多线性模型来描述这类执行器的动态行为;然而，在许多情况下，如谐振驱动，压电驱动器表现出软化的非线性行为;因此，需要一个精确的动力学模型来正确地预测非线性。本文首先修正了压电材料在高频下的非线性应力-应变关系。然后，根据得到的本构方程和欧拉-伯努利梁理论，建立了压电弯曲作动器的连续非线性动力学模型。其次，采用多尺度法求解离散化的非线性微分方程。最后，将结果与实验结果进行了比较，并同时考虑了频率响应和相位响应，确定了非线性参数。此外，为了评估该模型的准确性，还在识别范围外对其进行了测试。

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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来源期刊

Comptes Rendus Mecanique 物理-力学

CiteScore

1.40

自引率

0.00%

发文量

审稿时长

12 months

期刊介绍： The Comptes rendus - Mécanique cover all fields of the discipline: Logic, Combinatorics, Number Theory, Group Theory, Mathematical Analysis, (Partial) Differential Equations, Geometry, Topology, Dynamical systems, Mathematical Physics, Mathematical Problems in Mechanics, Signal Theory, Mathematical Economics, … The journal publishes original and high-quality research articles. These can be in either in English or in French, with an abstract in both languages. An abridged version of the main text in the second language may also be included.