Determination of crack tip stress intensity factors by singular Voronoi cell finite element model

Zhang Rui; Guo Ran

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Determination of crack tip stress intensity factors by singular Voronoi cell finite element model

机译：单数voronoi细胞有限元模型测定裂纹尖端应力强度因子

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A singular Voronoi cell finite element model (SVCFEM) is proposed for estimation of the mixed-mode stress intensity factors (SIFs) of crack tip in this paper. Formulation of a singular Voronoi cell finite element is based on a modified complementary energy principle. To satisfy the stress singularity at the crack tip, we enrich stress solution in assumed stress hybrid model. In addition to polynomial and reciprocal terms, singular stress terms of Williams expansion are added for elliptical crack to capture crack-tip stress concentrations. After obtaining the stress, SIFs of model I and model II were calculated using linear least-squares method. Comparisons of SVCFEM solution with analytical solution for crack are made to demonstrate the efficiency of SVCFEM.

机译：提出了一种奇异的Voronoi细胞有限元模型（SVCFEM），用于估计本文中的裂纹尖端的混合模式应力强度因子（SIF）。奇异Voronoi细胞有限元的配方基于改进的互补能量原理。为了满足裂缝尖端的应力奇异性，我们在假定的应力混合模型中丰富应力解决方案。除了多项式和互惠术语之外，为椭圆形裂缝添加梭形膨胀的奇异应力方面，以捕获裂纹尖端应力浓度。在获得应力之后，使用线性最小二乘法计算模型I和模型II的SIFS。采用SVCFEM解决方案对裂纹分析解决方案的比较来证明SVCFEM的效率。

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来源
《Engineering Fracture Mechanics》 |2018年第2018期|共11页
作者
Zhang Rui; Guo Ran;
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作者单位

Kunming Univ Sci &

Technol Engn Mech Dept Kunming 650500 Yunnan Peoples R China;

Kunming Univ Sci &

Technol Engn Mech Dept Kunming 650500 Yunnan Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类工程力学;
关键词
Voronoi cell finite-element model; Williams expansion; Stress intensity factors; Least-squares method;

机译：voronoi细胞有限元模型;威廉姆斯扩张;压力强度因子;最小二乘法;

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1. Determination of crack tip stress intensity factors by singular Voronoi cell finite element model [J] . Zhang Rui, Guo Ran Engineering Fracture Mechanics . 2018,第期

机译：单数voronoi细胞有限元模型测定裂纹尖端应力强度因子
2. Effect of crack configuration and pre-crack length on stress intensity factors: Study of the tearing mode using a three-dimensional finite element model [J] . Hassan S. M. Hedia, Mohamed A. N. Shabara, Ahmed A. Fattah, Materialpruefung: Werkstoffe und Bauteile, Forschung Prufung Anwendung . 2005,第10期

机译：裂纹形态和裂纹前长度对应力强度因子的影响：使用三维有限元模型研究撕裂模式
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机译：表面裂纹板疲劳裂纹扩展的有限元建模：第三部分：应力强度因子和疲劳裂纹扩展寿命
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机译：有限元的基准和扩展有限元的应力强度因子和裂纹传播方法
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机译：使用有限元对埋头孔产生的裂纹进行应力强度因子解的数学建模和验证。
6. Determination of cellular strains by combined atomic force microscopy and finite element modeling. [O] . Guillaume T Charras, Mike A Horton 2002

机译：通过组合原子力显微镜和有限元建模确定细胞株。
7. A Simple Procedure for the Accurate Determination of Stress Intensity Factors by Finite Element Method (3rd Report : Stress Intensity Factors for A Semi-Elliptical Crack In A Finite Plate) [O] . 村上敬宜, 岡崎泰寛 1976

机译：用有限元方法准确确定应力强度因子的简单程序（第三份报告：有限板中半椭圆形裂纹的应力强度因子）
8. Finite Elements for Determination of Crack Tip Elastic Stress Intensity Factors [R] . Yadav, R. R. S., Kushwaha, H. S. 1981

机译：裂纹尖端弹性应力强度因子测定的有限元分析

Determination of crack tip stress intensity factors by singular Voronoi cell finite element model

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