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Analysis of electromechanical characteristics of the 1-3-2 piezoelectric composite and 1-3-2 modified structural material

Hongwei Wang, Yang Li, Hui Hui, Tian Rong

2022Ceramics International16 citationsDOIOpen Access PDF

Abstract

In this study, a piezoelectric material with a modified structure was designed and fabricated based on a 1-3-2 piezoelectric composite, in an attempt to improve the thickness vibration electromechanical coupling coefficient of the piezoelectric sensitive element of transducer. No polymer was injected into the ceramic column arrays, and the upper surface of the ceramic column was covered with a metal plate, thereby reducing the lateral coupling among the piezoelectric columns. Thus, reducing the loss, and effectively improving the thickness vibration electromechanical coupling coefficient. The thickness vibration modes and electromechanical coupling coefficient of the 1-3-2 piezoelectric composite and 1-3-2 modified structural material were studied by theoretical analysis, simulation, and experiment. The results show that for the thickness vibration, the electromechanical coupling coefficient of the modified structural material increases by about 6% compared with the 1-3-2 piezoelectric ceramic/epoxy composite.

Topics & Concepts

Electromechanical coupling coefficientMaterials sciencePiezoelectricityComposite materialComposite numberPiezoelectric coefficientCeramicVibrationCoupling (piping)EpoxyPMUTCoupling coefficient of resonatorsComposite platePiezoelectric sensorAcousticsResonatorOptoelectronicsPhysicsFerroelectric and Piezoelectric MaterialsDielectric materials and actuatorsAcoustic Wave Resonator Technologies
Analysis of electromechanical characteristics of the 1-3-2 piezoelectric composite and 1-3-2 modified structural material | Litcius