Study of transient analysis of a conductive beam carrying an electrical current subjected to magnetic field with elastically restrained ends

IF 3.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Forces in mechanics Pub Date : 2023-05-01 DOI:10.1016/j.finmec.2023.100178
Elham Tahmasebi , Nariman Ashrafi Khorasani
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Abstract

The present study considers the nonlinear vibration behavior of a beam with general boundary conditions that carry an electrical current in the magnetic field. This paper discusses the magnetic couple, the transverse magnetic force, the electrical current, and the damper. By contrast, the magnetic field is selected as an arbitrary function of time. Under certain hypotheses, Hamilton's principle is used along with Maxwell's equations to derive the governing equation. An elastically restrained beam carrying an electrical current is also solved using Galerkin's method under a magnetic field. Thus, the effect of the rotational and the translational support flexibilities, the magnetic field, and other parameters are evaluated. For a more detailed investigation, some numerical examples are investigated to present the simplicity and efficiency of this formulation. Based on the numerical results, it is clear that the natural frequency of the ferromagnetic beam is sensitive to the angle and magnetic field. By increasing magnetic field intensity, the magnitude of the natural frequency of the beam increases. But with the increase of the angle, the frequency value decreases. Therefore, at larger angles, the impact of the intensity of the magnetic field will be less. Also, it is determined from the results that the beam deflection in various magnetic fields indicates a significant effect of the boundary conditions, not only on the dynamic response of a damped beam but also on the rate of damping of the response. The dynamic response under the magnetic field is decreased when the beam experiences a stiffer constant in its support. The results are shown that the effect of stiffening for the transitional support is more significant than that of the rotational support. Also, the influence of the boundary constraints becomes smaller when the magnetic field becomes smaller.

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端部受弹性约束的导电梁在磁场作用下的瞬态分析研究
本文研究了具有一般边界条件且在磁场中携带电流的梁的非线性振动行为。本文讨论了磁偶、横向磁力、电流和阻尼器。相比之下,磁场被选为时间的任意函数。在一定的假设下,用汉密尔顿原理和麦克斯韦方程推导出控制方程。在磁场作用下,用伽辽金方法求解了带电流的弹性约束束流。因此,对旋转和动支柔度、磁场和其他参数的影响进行了评估。为了进行更详细的研究,通过一些数值算例来说明该公式的简单性和有效性。数值结果表明,铁磁光束的固有频率对角度和磁场非常敏感。通过增加磁场强度,光束的固有频率的大小增加。但随着角度的增大,频率值减小。因此,在较大的角度下,磁场强度的影响会较小。结果表明,在不同磁场条件下,梁的挠度不仅对阻尼梁的动态响应有显著影响,而且对响应的阻尼率也有显著影响。当梁的支承刚度增大时,磁场作用下的动态响应减小。结果表明:过渡支承的加筋效果比旋转支承的加筋效果更显著。磁场越小,边界约束的影响也越小。
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来源期刊
Forces in mechanics
Forces in mechanics Mechanics of Materials
CiteScore
3.50
自引率
0.00%
发文量
0
审稿时长
52 days
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