Numerical simulation of ultrasonic waves in an isotropic elastic layer with a piezoelectric actuator

IF 0.2 Q4 PHYSICS, MULTIDISCIPLINARY

St Petersburg Polytechnic University Journal-Physics and Mathematics Pub Date : 2016-12-01 DOI:10.1016/j.spjpm.2016.11.012

Andrey V. Pivkov , Aleksandr M. Lobachev , Vladimir A. Polyanskiy , Viktor S. Modestov

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引用次数: 5

Abstract

This paper is dedicated to finite-element modeling (FEM) of elastic waves caused by the work of a piezoactuator. For this purpose, a mathematical model of the ‘elastic layer—piezoelectric element’ system has been developed. In the terms of the model, the simultaneous solution of the piezoelectricity and the solid-mechanics equations was employed. This model allowed us to describe the propagation process of high-frequency mechanical vibrations caused by the application of the probing electrical pulse to the electrodes of the piezoelectric element (the vibrations occur in the elastic layer) and to reproduce the potential difference arising in the reception of the reflected wave. The influence of t-parameters of the FEM and numerical integration scheme on the calculation results was investigated. The essential sensitivity of the reflected-wave's delay-time to the integrating time-step was found.

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压电致动器在各向同性弹性层中的超声波数值模拟

本文对压电致动器工作时产生的弹性波进行了有限元模拟。为此，建立了“弹性层-压电元件”系统的数学模型。在该模型中，采用压电力学方程和固体力学方程的同时求解。该模型使我们能够描述由探测电脉冲应用于压电元件的电极(振动发生在弹性层)引起的高频机械振动的传播过程，并重现反射波接收时产生的电位差。研究了有限元法的t参数和数值积分方案对计算结果的影响。发现了反射波的延迟时间对积分时间步长的本质敏感性。

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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来源期刊

St Petersburg Polytechnic University Journal-Physics and Mathematics PHYSICS, MULTIDISCIPLINARY-

自引率

50.00%

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