不同各向异性介质中的奇点、界面和裂缝

Z. Suo
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引用次数: 705

摘要

对于界面裂纹不显示振荡行为的非病理性双材料,可以观察到,除了可能的应力强度因素外,两个块中的每一个块中的近尖端场的结构与另一个块的弹性模量无关。在这种非振荡条件下分析了共线界面裂缝,并制定了一个简单的规则,允许人们从各向同性,均匀介质中的III型解构造完整解。发现一般界面裂纹尖端场由二维振荡奇点和一维平方根奇点组成。提出了一个复应力强度因子和一个实应力强度因子分别对两个奇异点进行标度。由于各向异性,一个特殊的事实是,当双材料退化为非病理性时,无论如何定义振荡场的复杂应力强度因子,都不能恢复经典应力强度因子。在这种情况下,共线裂纹问题也被公式化,并确定了一个非常简单的数学结构。得到了奇异-界面和奇异-界面-裂纹的交互解。一般结果专门用于解耦的反平面和平面内变形。对于这种重要的情况,我们发现,如果一个材料对对于界面和两个固体的一组相对取向是非病态的,那么它对于任何一组取向都是非病态的。对于键合的正交异性材料,可以直观地选择弹性各向异性和不相似度的主要度量。给出了一类退化正交各向异性材料的复变量表示。全文强调了列赫尼茨基形式主义和斯特罗形式主义的等价性。最后给出了各向异性固体界面断裂力学的形式化表述。
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Singularities, interfaces and cracks in dissimilar anisotropic media
For a non-pathological bimaterial in which an interface crack displays no oscillatory behaviour, it is observed that, apart possibly from the stress intensity factors, the structure of the near-tip field in each of the two blocks is independent of the elastic moduli of the other block. Collinear interface cracks are analysed under this non-oscillatory condition, and a simple rule is formulated that allows one to construct the complete solutions from mode III solutions in an isotropic, homogeneous medium. The general interfacial crack-tip field is found to consist of a two-dimensional oscillatory singularity and a one-dimensional square root singularity. A complex and a real stress intensity factors are proposed to scale the two singularities respectively. Owing to anisotropy, a peculiar fact is that the complex stress intensity factor scaling the oscillatory fields, however defined, does not recover the classical stress intensity factors as the bimaterial degenerates to be non-pathological. Collinear crack problems are also formulated in this context, and a strikingly simple mathematical structure is identified. Interactive solutions for singularity-interface and singularity interface-crack are obtained. The general results are specialized to decoupled antiplane and in-plane deformations. For this important case, it is found that if a material pair is non-pathological for one set of relative orientations of the interface and the two solids, it is non-pathological for any set of orientations. For bonded orthotropic materials, an intuitive choice of the principal measures of elastic anisotropy and dissimilarity is rationalized. A complex-variable representation is presented for a class of degenerate orthotropic materials. Throughout the paper, the equivalence of the Lekhnitskii and Stroh formalisms is emphasized. The article concludes with a formal statement of interfacial fracture mechanics for anisotropic solids.
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