Free vibration response of micromorphic Timoshenko beams

IF 4.3 2区工程技术 Q1 ACOUSTICS

Journal of Sound and Vibration Pub Date : 2024-07-01 DOI:10.1016/j.jsv.2024.118602

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Abstract

In this paper the authors investigate the free vibration of a two-length-scale nonlocal micromorphic Timoshenko beam, which is shown to overlap with the nonlocal strain gradient Timoshenko beam under certain conditions. Hamilton’s principle is utilized to obtain a system of two coupled fourth-order equations of motion governing the eigen-deflection and the eigen-rotation of the beam. Uncoupling both equations leads to two eight-order differential equations. Using Ferrari’s method, exact solutions are derived for the eigenfrequencies for various boundary conditions, including simply supported, clamped-clamped, clamped-free, and clamped-hinged boundary conditions. The obtained results are compared with those published in the literature using similar nonlocal strain gradient cases. A detailed parametric study is then performed to emphasize the role of the variationally-derived higher-order boundary conditions (natural higher-order boundary conditions or mixed higher-order boundary conditions). It is noted that when the difference in length-scales is large, the effect of the slenderness of the beam on the frequencies is amplified. Finally, the hardening or the softening effect of the beam model can be achieved through a choice of the ratio between the two length-scales.

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微形态季莫申科梁的自由振动响应

在本文中，作者研究了双长度尺度非局部微形变季莫申科梁的自由振动，研究表明，在某些条件下，该梁与非局部应变梯度季莫申科梁重叠。利用汉密尔顿原理得到了一个由两个耦合四阶运动方程组成的系统，分别控制梁的特征变形和特征旋转。将这两个方程解耦则得到两个八阶微分方程。利用费拉里方法，得出了各种边界条件下特征频率的精确解，包括简单支撑、夹紧-夹紧、无夹紧和夹紧-铰接边界条件。得到的结果与文献中发表的类似非局部应变梯度情况的结果进行了比较。然后进行了详细的参数研究，以强调变化衍生的高阶边界条件（自然高阶边界条件或混合高阶边界条件）的作用。我们注意到，当长度尺度差异较大时，梁的细长度对频率的影响会被放大。最后，梁模型的硬化或软化效应可以通过选择两个长度尺度之间的比率来实现。

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

Journal of Sound and Vibration 工程技术-工程：机械

CiteScore

9.10

自引率

10.60%

发文量

551

审稿时长

69 days

期刊介绍： The Journal of Sound and Vibration (JSV) is an independent journal devoted to the prompt publication of original papers, both theoretical and experimental, that provide new information on any aspect of sound or vibration. There is an emphasis on fundamental work that has potential for practical application. JSV was founded and operates on the premise that the subject of sound and vibration requires a journal that publishes papers of a high technical standard across the various subdisciplines, thus facilitating awareness of techniques and discoveries in one area that may be applicable in others.