Inter-Element Crack Propagation with High-Order Stress Equilibrium Element

IF 1 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
F. Parrinello, I. Benedetti
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引用次数: 0

Abstract

The present contribution proposes a formulation based on the use of hybrid equilibrium elements (HEEs), for the analysis of inter-element delamination and fracture propagation problems. HEEs are defined in terms of quadratic stress fields, which strongly verify both the homogeneous and inter-element equilibrium equations and they are employed with interfaces, initially exhibiting rigid behavior, embedded at the elements’ sides. The interface model is formulated in terms of the same degrees of freedom of the HEE, without any additional burden. The cohesive zone model (CZM) of the extrinsic interface is rigorously developed in the damage mechanics framework, with perfect adhesion at the pre-failure condition and with linear softening at the post-failure regime. After a brief review, the formulation is computationally tested by simulating the behavior of a double-cantilever-beam with diagonal loads; the obtained numerical results confirm the accuracy and potential of the method.
采用高阶应力平衡单元的单元间裂纹扩展
本贡献提出了一种基于混合平衡单元(HEE)的公式,用于分析单元间分层和断裂扩展问题。HEE是根据二次应力场定义的,它有力地验证了齐次和单元间平衡方程,并且它们与嵌入单元侧面的界面一起使用,最初表现出刚性行为。界面模型是根据HEE的相同自由度制定的,没有任何额外的负担。外部界面的内聚区模型(CZM)在损伤力学框架中得到了严格的发展,在破坏前具有完美的粘附性,在破坏后具有线性软化。在简要回顾后,通过模拟具有对角载荷的双悬臂梁的行为,对该公式进行了计算测试;数值计算结果证实了该方法的准确性和潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Multiscale Modelling
Journal of Multiscale Modelling MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
CiteScore
2.70
自引率
0.00%
发文量
9
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