各向异性体纵向剪切裂纹附近的动应力

2021 IEEE 26th International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (DIPED) Pub Date : 2021-09-08 DOI:10.1109/DIPED53165.2021.9552317

O. Maksymovych, T. Solyar

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引用次数: 0

摘要

从反平面动力学角度研究了含裂纹各向异性体在时变载荷和谐波作用下的弹性问题。为了解决这一问题，将基本方程简化为考虑某些各向同性材料的动力学问题。用拉普拉斯积分变换求解得到的方程。拉普拉斯变换是在积分方程方法的基础上得到的，它被简化为求解超奇异积分方程。提出了用正交法求解所得方程的数值方法。拉普拉斯反演是在预正则化公式的基础上进行的，该公式允许以控制精度计算应力。对动荷载和落波作用下的裂纹附近应力集中进行了研究。

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Dynamic Stresses near Cracks in Anisotropic Bodies at Longitudinal Shear

The elasticity problem of an anisotropic body with cracks under the action of time-varying loads and harmonic waves is studied at the antiplane dynamic consideration. To solve the problem, the basic equations are reduced to the consideration of dynamic problems for some isotropic material. The obtained equations were solved using the Laplace integral transformation. Laplace transforms are found on the basis of the method of integral equations and are reduced to solving hypersingular integral equations. A numerical method for solving the obtained equations using the quadrature method is proposed. The Laplace inversion is performed numerically on the basis of pre-regularized formulas that allow the calculation of stresses with controlled accuracy. A study of the stress concentration near cracks under dynamic loads and falling waves was performed.

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2021 IEEE 26th International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (DIPED)

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