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Modified Crack Closure Based Evaluation of Stress Intensity Factor in Symmetric Multi-Zone Curved Galerkin Boundary Element

机译：基于修改的裂缝闭合基于对称多区域弯曲Galerkin边界元件的应力强度因子评价

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The Boundary Element Method (BEM) is a well-established numerical tool for computation of stress intensity factors (SIFs) with a good degree of accuracy. The displacement-based boundary element methods have been used with success for determination of SIF's. Another important method for determining SIF is based on a crack closure technique (CCI). This technique has been used by several investigators to determine the SIF by Finite Element techniques. There have been some recent efforts to analyze SIF's in boundary element technique by this method. However, the boundary element techniques that were used are based on the traditional collocation-based approach. In this work the symmetric Galerkin multi-zone boundary element approach is extended to be used along with a modified crack-closure, integral-based approach for stress-intensity factor calculations.

机译：边界元素方法（BEM）是一种具有良好精度的应力强度因子（SIFS）的良好的数值工具。基于位移的边界元件方法已被用于确定SIF的成功。用于确定SIF的另一个重要方法是基于裂缝闭合技术（CCI）。几种研究人员已经使用该技术来通过有限元技术来确定SIF。通过这种方法将有一些努力分析边界元技术中的SIF。然而，所使用的边界元技术基于传统的基于搭配的方法。在这项工作中，延伸了对称的Galerkin多区边界元边界方法以与改进的裂缝闭合，基于压力 - 强度因子计算的整体方法一起使用。

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《SAE World Congress》|2008年||共16页
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作者
Snehasis Ganguly;
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原文格式 PDF
正文语种
中图分类 U46-53;
关键词
Boundary element method; Cracks/cracking; Finite element method; Fracture; Stresses;

机译：边界元法;裂缝/开裂;有限元法;骨折;应力;

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专利

1. Symmetric Galerkin boundary element computation of T-stress and stress intensity factors for mixed-mode cracks by the interaction integral method [J] . Sutradhar A, Paulino GH Engineering analysis with boundary elements . 2004,第11期

机译：相互作用积分法求解T型应力和应力强度因子的对称Galerkin边界元
2. Modified crack closure integral based computation of stress intensity factors for 2-D thermoelastic problems through boundary element method [J] . N.K. Mukhopadhyay, S.K. Maiti, A. Kakodkara Nuclear Engineering and Design . 1999,第3期

机译：基于边界元法的二维热弹性问题基于应力闭合因子的修正裂纹闭合积分计算
3. Boundary element method based computation of stress intensity factor by modified crack closure integral [J] . S.K.Maiti, N.K.Mukhopadhyay, A.Kakodkar Computational Mechanics . 1997,第3期

机译：基于边界元法的应力闭合因子修正裂纹积分计算
4. Modified Crack Closure Based Evaluation of Stress Intensity Factor in Symmetric Multi-Zone Curved Galerkin Boundary Element [C] . Snehasis Ganguly SAE World Congress . 2008

机译：基于修改的裂缝闭合基于对称多区域弯曲Galerkin边界元件的应力强度因子评价
5. Symmetric coupling of Galerkin boundary elements with finite elements. [D] . Ganguly, Snehasis. 1997

机译：Galerkin边界元与有限元的对称耦合。
6. Effect of Specimen Thickness and Stress Intensity Factor Range on Plasticity-Induced Fatigue Crack Closure in A7075-T6 Alloy [O] . Kenichi Masuda, Sotomi Ishihara, Noriyasu Oguma 2021

机译：试样厚度和应力强度因子范围对A7075-T6合金塑性诱导疲劳裂纹闭合的影响
7. Stress Intensity Factor Analyses of Bimaterial Interface Cracks Based on Interaction Energy Release Rate and Boundary Element Sensitivity Analysis. [O] . Toshiro MATSUMOTO, Masataka TANAKA, Ryo OBARA 1999

机译：基于相互作用能释放率和边界元灵敏度分析的基于相互作用裂缝的基础界面裂缝应力强度因子分析。
8. Stress Intensity Factors of Hole Edge Cracks. Comparison between One Crack and Two Symmetric Cracks [R] . Schijve, J. 1983

机译：孔边裂纹的应力强度因子。一裂纹与两个对称裂纹的比较

Modified Crack Closure Based Evaluation of Stress Intensity Factor in Symmetric Multi-Zone Curved Galerkin Boundary Element

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