Abstract

The shear horizontal (SH) wave devices have been widely used in electro- acoustic. To improve their performance, the phase velocity dispersion and the electromechanical coupling coefficient of the Lamb wave should be calculated exactly in the design. Therefore, this work is to analyze exactly the Lamb waves polarized in the SH direction in homogeneous plate pie.zoelectric material (PZT-5H). An alternative method is proposed to solve the wave equation in such a structure without using the standard method based on the electromechanical partial waves. This method is based on an analytical solution, the matricant explicitly expressed under the Peano series expansion form. Two types of configuration have been addressed, namely the open circuited and the short circuited. Results confirm that the SH wave provides a number of attractive properties for use in sensing and signal processing applications. It has been found that the phase velocity remains nearly constant for all values of h/λ (h is the plate thickness, λ the acoustic wavelength). Secondly the SH0 wave mode can provide very high electromechanical coupling. Graphical representations of electrical and mechanical amounts function of depth are made, they are in agreement with the continuity rules. The developed Peano technique is in agreement with the classical approach, and can be suitable with cylindrical geometry.

Highlights

  • As is well known for development of acousto-electronic devices the electro-mechanical coupling coefficient (K2) of acoustic wave has a great importance

  • This paper presents a detailed investigation of acoustic waves propagating in piezoelectric plates

  • The data presented in this paper is essential for the proper design of various devices based on acoustic waves propagating in PZT-5H plates

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Summary

Introduction

As is well known for development of acousto-electronic devices the electro-mechanical coupling coefficient (K2) of acoustic wave has a great importance. At present there exist the papers showing that fundamental shear-horizontal (SH0) acoustic waves in thin (in comparison with wavelength) piezoelectric plates possess by significantly more electromechanical coupling coefficient than surface acoustic waves (SAW) in the same material [13]. The data presented in this paper is essential for the proper design of various devices based on acoustic waves propagating in PZT-5H plates

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