Analytical solutions for the vibration response of thin-walled beams under bidirectional moving random loads

IF 2.3 3区工程技术 Q2 MECHANICS

Acta Mechanica Pub Date : 2024-08-16 DOI:10.1007/s00707-024-04054-2

Yong Cai, Laifu Zhang, Xiaoyong Lv, Haijun Chen, Xueqi Li

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Abstract

In this study, analytical solutions are presented for the flexural–torsional coupled vibration response analyses of thin-walled beams under bidirectional moving random loads. Based on classical Euler–Bernoulli and Vlasov beam theories, the governing dynamic equations considering the influence of additional torque have been established. The modal superposition method, the Laplace transform, and the Duhamel's integral technique have been employed to obtain the average value and standard deviation of beam displacements in vertical, lateral, and torsional directions. For the validation of the proposed formulations, the results obtained in this paper are compared with the results acquired by the Newmark-β method and the Monte Carlo method. Comparisons of the results prove the accuracy of the suggested formulations. Through the parametric analysis, it is confirmed that the position where the average value reaches its maximum is related to the load velocity. But the maximum standard deviation always occurs at the end of the beam, which decreases with the growth of velocity and the drop in span. When the velocity does not exceed 30 m/s, the displacement response is mainly controlled by low-order modes.

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双向移动随机载荷作用下薄壁梁振动响应的解析解

本研究提出了薄壁梁在双向移动随机载荷作用下的挠扭耦合振动响应分析的解析解。基于经典的欧拉-伯努利和弗拉索夫梁理论，建立了考虑附加扭矩影响的支配动态方程。利用模态叠加法、拉普拉斯变换和杜哈梅尔积分技术，获得了梁在垂直、横向和扭转方向上的位移平均值和标准偏差。为了验证所提出的公式，本文将所获得的结果与 Newmark-β 方法和 Monte Carlo 方法所获得的结果进行了比较。结果对比证明了建议公式的准确性。通过参数分析证实，平均值达到最大值的位置与负载速度有关。但最大标准偏差总是出现在梁的末端，并随着速度的增加和跨度的减小而减小。当速度不超过 30 m/s 时，位移响应主要由低阶模式控制。

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来源期刊

Acta Mechanica 物理-力学

CiteScore

4.30

自引率

14.80%

发文量

292

审稿时长

6.9 months

期刊介绍： Since 1965, the international journal Acta Mechanica has been among the leading journals in the field of theoretical and applied mechanics. In addition to the classical fields such as elasticity, plasticity, vibrations, rigid body dynamics, hydrodynamics, and gasdynamics, it also gives special attention to recently developed areas such as non-Newtonian fluid dynamics, micro/nano mechanics, smart materials and structures, and issues at the interface of mechanics and materials. The journal further publishes papers in such related fields as rheology, thermodynamics, and electromagnetic interactions with fluids and solids. In addition, articles in applied mathematics dealing with significant mechanics problems are also welcome.