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CALCULATION OF STRESS INTENSITY FACTORS FOR A CRACK ALONG THE ±45° INTERFACE OF A FIBER REINFORCED MATERIAL

机译：沿纤维增强材料±45°界面的裂缝应力强度因子的计算

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The three-dimensional M-integral is presented for calculating stress intensity factors for an interface crack between two fiber reinforced materials which are treated effectively as trans versely isotropic materials. The material in the upper half-space is in the ＋45°-direction, whereas the material in the lower half-space is in the -45-direction. An interface crack in this material possesses oscillatory and square-root singularities. A test case of a three-dimensional bimaterial slab containing an edge interface crack is described. The first term of the asymptotic displacement field is applied with the complex stress intensity factor K ＝ 0 and mode II stress intensity factor K_(∏) ＝ 1 on the outer boundaries of the body. The crack faces are traction free. Solution to this problem, should be precisely the imposed stress intensity factor. Excellent results are obtained. Other test problems, not presented here, also produce excellent results.

机译：提出了三维M-Integral，用于计算两个纤维增强材料之间的界面裂缝的应力强度因子，其有效地处理为跨型各向同性材料。上半空间中的材料处于+ 45° - 重定向，而下半空间中的材料处于-45方向。该材料中的界面裂缝具有振荡和方形奇点。描述了包含边缘界面裂纹的三维双材料板的测试案例。渐近位移场的第一项应用于主体的外边界上的复应力强度因子k = 0和模式II应力强度因子K_（π）= 1。裂缝面是无牵引力的。解决这个问题的解决方案，应该是施加的应力强度因子。获得了优异的结果。其他测试问题，未在此提出，也产生出色的结果。

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《International Conference on Fracture》|2005年||共6页
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Leslie Banks-Sills; Yuval Freed;
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中图分类 TH114-53;
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4. CALCULATION OF STRESS INTENSITY FACTORS FOR A CRACK ALONG THE ±45° INTERFACE OF A FIBER REINFORCED MATERIAL [C] . Leslie Banks-Sills, Yuval Freed International Conference on Fracture . 2005

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CALCULATION OF STRESS INTENSITY FACTORS FOR A CRACK ALONG THE ±45° INTERFACE OF A FIBER REINFORCED MATERIAL

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