基于非局部内聚模型的准静态裂缝演化

IF 2.2 3区 工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Debdeep Bhattacharya, Robert Lipton, Patrick Diehl
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引用次数: 0

摘要

我们介绍了一种用于准静态断裂演化的围动力学非局部模型。我们建立了非局部准静态断裂演化模型,并给出了支持该模型的数值示例。该方法是隐式的,基于局部静止和定点方法。这里使用的是光滑内聚力-应变模型。最初,力随应变增加,然后变软并减小到零。研究证明,只要位移增量选得足够小,随着裂缝的推进,断裂演化的每一步位移都会减少储存的弹性能量。这些结果适用于任何多裂缝系统。这在数值示例中也可以看到。数值示例包括一条直线裂纹、一条在 L 形域内扩展的裂纹以及两条向内扩展的偏移裂纹的演变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Quasistatic fracture evolution using a nonlocal cohesive model

Quasistatic fracture evolution using a nonlocal cohesive model

Quasistatic fracture evolution using a nonlocal cohesive model

We introduce a nonlocal model of peridynamic type for fracture evolution in the quasistatic regime. Nonlocal quasistatic fracture evolution is developed and supporting numerical examples are presented. The approach is implicit and is based on local stationary and fixed point methods. Here a smooth cohesive force-strain model is used. Initially the force increases with strain then softens and decreases to zero. It is proved that the fracture evolution decreases stored elastic energy with each displacement step as the cracks advance; provided the displacement increments are chosen sufficiently small. These results apply to any system of multiple cracks. This is also seen in the numerical examples. The numerical examples include evolution of a straight crack, a crack propagating inside an L-shaped domain, and two offset inward propagating cracks.

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来源期刊
International Journal of Fracture
International Journal of Fracture 物理-材料科学:综合
CiteScore
4.80
自引率
8.00%
发文量
74
审稿时长
13.5 months
期刊介绍: The International Journal of Fracture is an outlet for original analytical, numerical and experimental contributions which provide improved understanding of the mechanisms of micro and macro fracture in all materials, and their engineering implications. The Journal is pleased to receive papers from engineers and scientists working in various aspects of fracture. Contributions emphasizing empirical correlations, unanalyzed experimental results or routine numerical computations, while representing important necessary aspects of certain fatigue, strength, and fracture analyses, will normally be discouraged; occasional review papers in these as well as other areas are welcomed. Innovative and in-depth engineering applications of fracture theory are also encouraged. In addition, the Journal welcomes, for rapid publication, Brief Notes in Fracture and Micromechanics which serve the Journal''s Objective. Brief Notes include: Brief presentation of a new idea, concept or method; new experimental observations or methods of significance; short notes of quality that do not amount to full length papers; discussion of previously published work in the Journal, and Brief Notes Errata.
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