基于修正耦合应力理论的屈曲磁电热弹性层压微梁参数共振

Microsystem Technologies Pub Date : 2024-08-17 DOI:10.1007/s00542-024-05728-6

Yu-fang Zheng, Li-chuan Liu, De-yong Qu, Chang-ping Chen

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摘要

本文基于修正耦合应力理论，研究了磁电热弹性（METE）层压微梁在屈曲后状态下的非线性动态响应。基于微梁的非线性屈曲后动态模型，考虑主要参数共振，应用多尺度方法对模型进行求解和分析，以获得非线性振幅频率响应关系。然后，利用雅可比矩阵对微梁进行稳态分析。在数值实例中，讨论了材料长度尺度参数、磁电热场、轴向静载荷和动载荷以及跨厚比对 METE 层压微梁动态不稳定区域和振幅频率响应曲线的影响。

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Parametric resonances of buckled magneto-electro-thermo-elastic laminated microbeams based on modified couple stress theory

This article investigates the nonlinear dynamic response of the magneto-electro-thermo-elastic (METE) laminated microbeams in post-buckling state considering the modified couple stress theory. Based on the nonlinear post-buckling dynamic model of the microbeam, considering the main parameter resonance, the model is solved and analyzed to obtain the nonlinear vibration amplitude frequency response relationship by applying the multi-scale method. Then, the Jacobi matrix is used for steady-state analysis of the microbeam. In numerical examples, the effects of material length scale parameter, magneto-electro-thermo field, axial static and dynamic loads, and span-thickness ratio on the dynamic instability region and amplitude frequency response curve of METE laminated microbeams are discussed.

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Microsystem Technologies

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