High-electromechanical performance for high-power piezoelectric applications: Fundamental, progress, and perspective

Piezoelectric materials with excellent electromechanical performance are widely used as core components in high-power applications such as ultrasonic transducers, piezoelectric transformers, ceramic filters and sonar systems. A comprehensive review of the fundamental, progress, and perspective of th...

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Published in	Progress in materials science Vol. 127; p. 100944
Main Authors	Chen, Liang, Liu, Hui, Qi, He, Chen, Jun
Format	Journal Article
Language	English
Published	Oxford Elsevier Ltd 01.06.2022 Elsevier BV
Subjects	Defect dipoles High-electromechanical performance High-power applications High-Qm Materials science Optimization Parameters Piezoelectric ceramics Piezoelectricity Transducers Defect dipoles High-electromechanical performance High-power applications Piezoelectric ceramics High-Qm
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Abstract	Piezoelectric materials with excellent electromechanical performance are widely used as core components in high-power applications such as ultrasonic transducers, piezoelectric transformers, ceramic filters and sonar systems. A comprehensive review of the fundamental, progress, and perspective of the various types of piezoelectric materials with high-electromechanical performance based on high mechanical quality factor Qm is presented herein, and in particular, the regulation and optimization of electromechanical performance are systematically introduced and summarized. Based on the investigation and summary, two main key issues faced for high-power applications are elaborated: one is the mutually restrictive relationship between Qm and other parameters (d33, kp and ɛ), and the other one is the temperature stability of electromechanical parameters. Next, the factors and internal mechanisms that affect Qm regulation and optimization are discussed in detail, and the effective strategies for improving Qm and weakening the mutually restrictive relationship are proposed to obtain high-electromechanical performance. Subsequently, some discussions and perspectives are put forward in detail as suggestions for the development and design of high-Qm piezoelectric materials with excellent comprehensive performance. It is hoped that this review would be helpful for researchers and engineers to understand the origins of high-Qm and related mechanisms, and to design new high-electromechanical performance piezoelectric materials meeting high-power applications.
AbstractList	Piezoelectric materials with excellent electromechanical performance are widely used as core components in high-power applications such as ultrasonic transducers, piezoelectric transformers, ceramic filters and sonar systems. A comprehensive review of the fundamental, progress, and perspective of the various types of piezoelectric materials with high-electromechanical performance based on high mechanical quality factor Qm is presented herein, and in particular, the regulation and optimization of electromechanical performance are systematically introduced and summarized. Based on the investigation and summary, two main key issues faced for high-power applications are elaborated: one is the mutually restrictive relationship between Qm and other parameters (d33, kp and ɛ), and the other one is the temperature stability of electromechanical parameters. Next, the factors and internal mechanisms that affect Qm regulation and optimization are discussed in detail, and the effective strategies for improving Qm and weakening the mutually restrictive relationship are proposed to obtain high-electromechanical performance. Subsequently, some discussions and perspectives are put forward in detail as suggestions for the development and design of high-Qm piezoelectric materials with excellent comprehensive performance. It is hoped that this review would be helpful for researchers and engineers to understand the origins of high-Qm and related mechanisms, and to design new high-electromechanical performance piezoelectric materials meeting high-power applications.
ArticleNumber	100944
Author	Chen, Jun Liu, Hui Chen, Liang Qi, He
Author_xml	– sequence: 1 givenname: Liang surname: Chen fullname: Chen, Liang organization: Beijing Advanced Innovation Center for Materials Genome Engineering, Department of Physical Chemistry, University of Science and Technology Beijing, Beijing 100083, China – sequence: 2 givenname: Hui surname: Liu fullname: Liu, Hui organization: School of Mathematics and Physics, University of Science and Technology Beijing, Beijing 100083, China – sequence: 3 givenname: He surname: Qi fullname: Qi, He email: qiheustb@ustb.edu.cn organization: Beijing Advanced Innovation Center for Materials Genome Engineering, Department of Physical Chemistry, University of Science and Technology Beijing, Beijing 100083, China – sequence: 4 givenname: Jun surname: Chen fullname: Chen, Jun email: junchen@ustb.edu.cn organization: Beijing Advanced Innovation Center for Materials Genome Engineering, Department of Physical Chemistry, University of Science and Technology Beijing, Beijing 100083, China
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Snippet	Piezoelectric materials with excellent electromechanical performance are widely used as core components in high-power applications such as ultrasonic...
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StartPage	100944
SubjectTerms	Defect dipoles High-electromechanical performance High-power applications High-Qm Materials science Optimization Parameters Piezoelectric ceramics Piezoelectricity Transducers
Title	High-electromechanical performance for high-power piezoelectric applications: Fundamental, progress, and perspective
URI	https://dx.doi.org/10.1016/j.pmatsci.2022.100944 https://www.proquest.com/docview/2664896525
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