G-L理论下旋转微电极纤维增强介质自由表面磁热弹性平面波的反射和传播

IF 0.8 4区工程技术 Q4 ACOUSTICS

International Journal of Acoustics and Vibration Pub Date : 2020-06-30 DOI:10.20855/ijav.2020.25.21575

A. I. Anya, Aftab Khan

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引用次数: 3

摘要

本文利用格林和林赛理论研究了磁场作用下旋转微极纤维增强热弹性介质自由表面上的波反射。观察到，在磁场存在的情况下，当一个P波入射到旋转的微极纤维增强热弹性介质的自由表面上时，四个波被反射；准纵向位移（qLD）、准横向位移（qTD）、准横微旋转（qTM）和准热波。在确定微极纤维增强模型问题的解时，常模方法，也称为谐波解方法，与控制电磁场的Snell定律和Maxwell方程同时使用。振幅比或反射系数，对应于垂直和水平分量中的反射波，被解析地表示。此外，对于特定选择的材料，反射系数是使用图形形式的数值模拟结果来表示的。我们观察到，微极纤维增强、旋转和磁热弹性场参数对波在介质中的传播和反射有不同程度的影响。这项研究应有助于理解旋转微极纤维增强磁热弹性机械加工场的传播和反射行为，以及未来关于地震波行为的工作。

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Reflection and Propagation of Magneto-Thermoelastic Plane Waves at Free Surfaces of a Rotating Micropolar Fibre-Reinforced Medium under G-L Theory

This article is concerned with the investigation of reflection of waves at the free surface of a rotating micropolar fibre-reinforced thermoelastic medium, in the presence of a magnetic field using Green and Lindsay theory. It is observed that when a P-wave is incident on the free surface of rotating micropolar fibre-reinforced thermoelastic medium in the presence of a magnetic field, four waves are reflected; quasi-longitudinal displacement (qLD), quasi-transverse displacement (qTD), quasi-transverse micro-rotational (qTM) and quasi-thermal waves. The normal modes method, also called the harmonic solution approach, is used simultaneously with Snell’s laws and Maxwell’s equation, governing electromagnetic fields, in the determination of a solution for the micropolar fibrereinforced modelled problem. Amplitude ratios or reflection coefficients, which correspond to reflected waves in vertical and horizontal components, are presented analytically. Moreover, the reflection coefficients are presented using numerically simulated results in graphical form for a particular chosen material. We observe that the micropolar fibre-reinforced, rotation, and magneto-thermoelastic field parameters, have varied degree of effects on the propagation and reflection of waves in the medium. The study should be helpful in understanding the behaviour of propagation and reflection of rotating micropolar fibre-reinforced magneto-thermoelastic machination fields and on future works about behaviour of seismic waves.

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来源期刊

International Journal of Acoustics and Vibration ACOUSTICS-ENGINEERING, MECHANICAL

CiteScore

1.60

自引率

10.00%

发文量

审稿时长

12 months

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