High-frequency emi signatures for damaged plates using finite element method

2011 Symposium on Piezoelectricity, Acoustic Waves and Device Applications (SPAWDA) Pub Date : 2011-12-01 DOI:10.1109/SPAWDA.2011.6167271

W. Yan, Wan-Chun Li, Ji Wang, Wei-qiu Chen

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引用次数: 2

Abstract

Based on the finite element method, an electromechanical impedance (EMI) model for a damaged plate with imperfectly bonded piezoelectric patches is established in the paper. The property of bonding layer between the PZT sensor/actuators and the host plate is taken into account based on the peel stress model as well as the shear lag model. The damage appearing in the plate is modeled by a change in Young's modulus in the damaged area. Then, the three-dimensional (3D) model of piezoelectric patch-adhesive-damaged plate coupled system is developed. Both the peel stress and the shear stress along the piezoelectric patches are simulated under various excitation frequencies. The numerical results show that excitation frequency affect remarkably the shear stress as well as the peel stress distribution between PZT wafers and host plate and thus some assumptions adopted in the conventional EMI models should be revised accordingly. Finally, the effects of damage severity and expansion on high-frequency EMI signatures are investigated. The simulation indicates that the present EMI model can be used to detect the damages in the structures.

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基于有限元法的损伤板高频电磁干扰特征分析

基于有限元方法，建立了带有非完美粘结压电片的损伤板的机电阻抗模型。基于剥离应力模型和剪切滞后模型，考虑了压电陶瓷传感器/执行器与主板之间键合层的性质。用损伤区域的杨氏模量变化来模拟板内出现的损伤。然后，建立了压电贴片-胶粘剂-损伤板耦合系统的三维模型。在不同的激励频率下，模拟了沿压电片的剥离应力和剪切应力。数值结果表明，激励频率对压电陶瓷片与主板之间的剪切应力和剥离应力分布有显著影响，因此需要对传统电磁干扰模型中的一些假设进行修正。最后，研究了损伤程度和膨胀对高频电磁干扰信号的影响。仿真结果表明，所建立的电磁干扰模型可用于结构损伤检测。

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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2011 Symposium on Piezoelectricity, Acoustic Waves and Device Applications (SPAWDA)

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