Constrains on stresses in isotropic homogeneous infinite half-spaces being in welded contact: 2D anti-plane and in-plane cases |
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Authors: | Kacper R. Rybicki Teruo Yamashita |
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Affiliation: | (1) Institute of Geophysics, Polish Academy of Sciences, Warszawa, Poland;(2) Earthquake Research Institute, Tokyo University, Tokyo, Japan |
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Abstract: | Formulas are derived for two-dimensional problems relating stresses across a plane boundary that divides infinite homogeneous half-spaces being in welded contact. The calculations are made for both anti-plane and in-plane stress cases. The results obtained for the former case that involve only two stress components are useful in the analysis of fracture of strike-slip type. For the in-plane case, the relations that link stresses in one half-space with the corresponding homogeneous stresses in the other half-space are presented for arbitrarily oriented shear and normal stresses and for the center of compression (dilatation). The above relations provide a compete set of expressions that, among other things, make it possible to analyze stresses involved in faulting of deep-slip type in an inhomogeneous medium. The quantitative preliminary evaluations based on the results obtained demonstrate the great role of low rigidity media in fracture processes of all kinds within the Earth’s crust. |
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Keywords: | stresses anti-plane stress in-plane stress strike-slip faulting dip-slip faulting |
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