基于孔隙率的多孔PZT压电特性两步模拟

IF 2.2 4区材料科学 Q2 MATERIALS SCIENCE, CERAMICS

Journal of Asian Ceramic Societies Pub Date : 2023-01-02 DOI:10.1080/21870764.2022.2159928

Il-Gok Hong, Ho-Yong Shin, Jong-Ho Kim, U. Paik, J. Im

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引用次数: 2

摘要

多孔压电材料以其优异的静水压电荷常数（dh）和电压常数（gh）在水听器中得到了广泛的应用。然而，由于样品制造的困难，使用模拟来评估可靠器件设计的整体压电特性是具有挑战性的。在此，进行了两步模拟，以准确地确定多孔PZT的整体性能。首先，利用电致伸缩效应通过位移计算来计算压电电荷常数。其次，利用实验获得的压电电荷常数和阻抗谱，选择了优化性能的初始值，并使用参数估计技术获得了整体性能。这些参数估计模拟程序是根据IEEE标准对径向和厚度模式的样本进行的。最后，将所得的压电性能与实验值进行了比较和验证。因此，根据孔隙率获得了包括机械性能、频率性能和介电性能在内的整体压电性能，结果可靠。

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Two-step simulation of piezoelectric properties of porous PZT according to porosity

ABSTRACT Porous piezoelectric materials have been widely used in hydrophone applications owing to their excellent hydrostatic charge constant (dh) and voltage constant (gh). However, owing to the difficulty in sample manufacturing, the evaluation of the overall piezoelectric properties for reliable device design using simulations is challenging. Herein, a two-step simulation was performed to accurately determine the overall properties of the porous PZT. First, the piezoelectric charge constant was calculated by displacement calculations using the electrostrictive effect. Second, using the calculated piezoelectric charge constant and impedance spectrum obtained from the experiment, the initial value for optimizing the properties was selected, and the overall properties were obtained using the parametric estimation technique. These parametric estimation simulation procedures were performed with the samples of radial and thickness modes based on the IEEE standards. Finally, the piezoelectric properties obtained were compared and verified with the experimental values. Therefore, the overall piezoelectric properties include mechanical, frequency and dielectric properties according to the porosity were obtained with reliable results.

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来源期刊

Journal of Asian Ceramic Societies Materials Science-Ceramics and Composites

CiteScore

5.00

自引率

4.30%

发文量

审稿时长

10 weeks

期刊介绍： The Journal of Asian Ceramic Societies is an open access journal publishing papers documenting original research and reviews covering all aspects of science and technology of Ceramics, Glasses, Composites, and related materials. These papers include experimental and theoretical aspects emphasizing basic science, processing, microstructure, characteristics, and functionality of ceramic materials. The journal publishes high quality full papers, letters for rapid publication, and in-depth review articles. All papers are subjected to a fair peer-review process.