Energy analysis of a piezoelectric patch laminated on cylindrical panels subjected to harmonic line loadings

2011 Symposium on Piezoelectricity, Acoustic Waves and Device Applications (SPAWDA) Pub Date : 2011-12-01 DOI:10.1109/SPAWDA.2011.6167300

Shuang-shuang Wang, Zheng Rao, H. Tzou

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引用次数: 1

Abstract

In order to transform the vibration energy into electric energy, piezoelectric materials are often used due to their properties. This paper proposes an energy analysis model of cylindrical panels laminated with piezoelectric patch. With simply supported boundary condition at four sides, panels are excited by harmonic line loadings in transverse direction. Love & Kirchhoff thin shell theory and electromechanical equations are used to derive the voltage across the surface area of the piezoelectric patch. Considering the thin thickness of piezoelectric patch, its capacitance can be estimated by utilizing the formula of plate capacitor. Consequently, the energies can be presented with the equations only containing variables of capacitance and voltage. In case study, effect of the line loading location is firstly studied. The results show that the optimal position of longitudinal line loading is related to circumferential mode number, while it's only related to longitudinal mode number for circumferential line loading. The effect of the cylindrical panel curvature is also discussed afterward.

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谐波线荷载作用下圆柱形板上压电片的能量分析

为了将振动能转化为电能，由于压电材料的特性，经常使用压电材料。提出了一种压电片层合圆柱板的能量分析模型。在四边简支边界条件下，面板横向受谐波线荷载激励。利用Love & Kirchhoff薄壳理论和机电方程推导了压电片表面的电压。考虑到压电片的厚度较薄，可以利用板电容的公式来估算其电容。因此，能量可以用只包含电容和电压变量的方程来表示。在实例分析中，首先研究了线加载位置的影响。结果表明:纵向线加载的最优位置与周向模态数有关，而周向线加载的最优位置仅与纵向模态数有关;之后还讨论了圆柱板曲率的影响。

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2011 Symposium on Piezoelectricity, Acoustic Waves and Device Applications (SPAWDA)

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