P波和S波在微极弹性和热弹性与孔隙界面的折射

IF 2.4 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Molecular and Engineering Materials Pub Date : 2018-09-01 DOI:10.1142/S2251237318500053

R. Lianngenga, J. Lalvohbika, Lalawmpuia

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引用次数: 1

摘要

尝试了在微极热弹性半空间和微极弹性半空间的界面上入射平面波的问题。在界面处适当的边界条件的帮助下，获得入射[公式：见正文]-和[公式：参见正文]-波的各种反射波和折射波的振幅和能量比。讨论了线性热膨胀和微惯量对入射[公式：见正文]-和[公式：参见正文]-波的振幅和能量比的影响。通过数值和分析，计算了这些振幅和能量比，以显示线性热膨胀和微惯量的影响。观察到，线性热膨胀对入射[公式：见正文]-波的影响较小，而微惯量对入射[方程式：见正文]波的影响较少。

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Refraction of P- and S-Wave at the Interface of Micropolar Elasticity and Thermoelasticity with Voids

The problem of incident plane waves at the interface of micropolar thermoelastic half-space with voids and micropolar elastic half-space with voids has been attempted. The amplitude and energy ratios of various reflected and refracted waves for the incident [Formula: see text]- and [Formula: see text]-waves are obtained with the help of appropriate boundary conditions at the interface. The effect of linear thermal expansion and microinertia on the amplitude and energy ratios due to the incident [Formula: see text]- and [Formula: see text]-waves are discussed. Numerically and analytically, these amplitude and energy ratios are computed to show the effect of linear thermal expansion and microinertia. It is observed that the effect of linear thermal expansion is less for incident [Formula: see text]-wave and the effect of microinertia is less for incident [Formula: see text]-wave.

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Journal of Molecular and Engineering Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-

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