Supersonic aeroelastic behaviors of the ferromagnetic panels in steady/harmonic magnetic field

IF 2.2 3区工程技术 Q2 MECHANICS

Archive of Applied Mechanics Pub Date : 2025-04-16 DOI:10.1007/s00419-025-02806-7

Shi Lihe, Duan Jingbo, Pang Yu, Yue Yanmei, Wang Wei

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Abstract

The nonlinear aeroelastic dynamic responses and bifurcation behaviors of the ferromagnetic panel in steady/harmonic magnetic field under the supersonic airflow environment are investigated. The geometrical nonlinear effect of the ferromagnetic panel is depicted through the Von-Karman strain and the aerodynamic load is incorporated by the classical piston theory. Then, the reduced equations of motion are obtained and the Newmark method is used to determine the dynamic response with the Newton–Raphson iterative procedure for the nonlinear equilibrium equation at each time step. After examining the accuracy of the established mechanical model through numerical comparisons with experiment results and literature solutions, the main parametric studies focusing on the steady magnetic field strength, harmonic magnetic amplitude and frequency, dynamic pressure on nonlinear dynamic response are studied and the global bifurcation diagrams are given. Results show that the steady magnetic field leads to enhancement of the critical flutter dynamic pressure and a delaying of chaotic motion for the ferromagnetic panel. However, the harmonic magnetic field will complicate the motion type of the ferromagnetic panel and bring a chaotic state earlier.

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稳定/谐波磁场下铁磁板的超音速气动弹性行为

研究了超声速气流环境下铁磁板在稳态/谐波磁场下的非线性气动弹性动力响应和分岔行为。通过冯-卡门应变描述了铁磁板的几何非线性效应，并通过经典活塞理论纳入了气动载荷。然后，利用Newmark法对非线性平衡方程在每个时间步长的动态响应进行Newton-Raphson迭代求解。通过与实验结果和文献解的数值比较，验证了所建立的力学模型的准确性，研究了稳态磁场强度、谐波磁场幅值和频率、动压力等主要参数对非线性动态响应的影响，并给出了全局分岔图。结果表明，稳定磁场使铁磁板临界颤振动压力增大，混沌运动延迟。然而，谐波磁场会使铁磁板的运动形式复杂化，使铁磁板更早地进入混沌状态。

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

Archive of Applied Mechanics 物理-力学

CiteScore

4.40

自引率

10.70%

发文量

234

审稿时长

4-8 weeks

期刊介绍： Archive of Applied Mechanics serves as a platform to communicate original research of scholarly value in all branches of theoretical and applied mechanics, i.e., in solid and fluid mechanics, dynamics and vibrations. It focuses on continuum mechanics in general, structural mechanics, biomechanics, micro- and nano-mechanics as well as hydrodynamics. In particular, the following topics are emphasised: thermodynamics of materials, material modeling, multi-physics, mechanical properties of materials, homogenisation, phase transitions, fracture and damage mechanics, vibration, wave propagation experimental mechanics as well as machine learning techniques in the context of applied mechanics.