A computational approach for phase-field model of quasi-brittle fracture under dynamic loading

IF 2.2 3区 工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Roman Vodička
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引用次数: 0

Abstract

A computational model is formulated for studying dynamic crack propagation in quasi-brittle materials exposed to time-dependent loading conditions. Under such conditions, inertial effects of structural components play an important role in modelling crack propagation problems. The computational model is proposed within the theory of regularised cracks which uses a damage-like internal variable. Here, fracture considers phase-field damage which gives rise to a material degradation in a narrow material strip defining the regularised crack. Based on the energy formulation using the Lagrangian of the system, the proposed computational approach introduces a staggered scheme adopted to solve the coupled system and providing it in a variational form within the time stepping procedure. The numerical data are obtained by quadratic programming algorithms implemented together with a finite element code.

Abstract Image

动态加载下准脆性断裂相场模型的计算方法
本研究建立了一个计算模型,用于研究准脆性材料在随时间变化的加载条件下的动态裂纹扩展。在这种条件下,结构部件的惯性效应在模拟裂纹扩展问题中发挥着重要作用。计算模型是在正则化裂纹理论中提出的,该理论使用了类似损伤的内部变量。在这里,断裂考虑了相场损伤,这种损伤会在定义规则化裂缝的窄材料带中引起材料退化。基于使用系统拉格朗日的能量公式,所提出的计算方法引入了一种交错方案,用于求解耦合系统,并在时间步进程序中以变分形式提供。数值数据通过与有限元代码一起实施的二次编程算法获得。
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
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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