Free vibration of piezoelectric FGM sandwich beam with porous core embedded in thermal environment and elastic foundation

Journal of Science and Technology in Civil Engineering (STCE) - HUCE Pub Date : 2021-10-31 DOI:10.31814/stce.huce(nuce)2021-15(4)-02

Tran Quang Hung, T. M. Tu, D. M. Duc

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引用次数: 1

Abstract

This paper aims to present thermo-electrical free vibration characteristics of functionally graded material (FGM) sandwich beam placed on the two-parameter elastic foundation. The beam is constructed of a foam core, two middle FGM layers, and two outer piezoelectric layers. It is assumed that the beam is subjected to a constant voltage and a uniform/linear temperature distribution. Physical properties of the core and two middle layers vary smoothly through the thickness according to the cosine and power-law forms, respectively. Lagrange equations in conjunction with the Reddy third-order beam theory is employed to derive the governing equations of motion. A simple polynomial trial function-based Ritz method is adopted for the approximation of the displacement field to obtain the vibration response. The correctness of the study is verified by comparisons with other authors’ published results. Influences of geometry parameters, material property distribution, applied voltage, elastic foundation, temperature distribution, temperature change, porosity coefficient, span-to-height ratio, and boundary conditions are investigated through parametric studies.

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热环境和弹性地基中嵌入多孔芯的FGM压电夹层梁的自由振动

研究了置于双参数弹性地基上的功能梯度材料夹层梁的热电自由振动特性。该梁由泡沫芯、两个中间FGM层和两个外部压电层组成。假定光束承受恒定电压和均匀/线性温度分布。核心和两个中间层的物理性质分别根据余弦和幂律形式在厚度上平滑变化。利用拉格朗日方程和Reddy三阶光束理论推导了运动控制方程。采用基于简单多项式试函数的里兹法对位移场进行逼近，得到振动响应。通过与其他作者发表的结果进行比较，验证了该研究的正确性。通过参数化研究考察了几何参数、材料性能分布、外加电压、弹性基础、温度分布、温度变化、孔隙率系数、跨高比、边界条件等因素的影响。

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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Journal of Science and Technology in Civil Engineering (STCE) - HUCE

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