Simulation of plasticity-induced fatigue crack closure in part-through cracked geometries using finite element analysis

J.D. Skinner; S.R. Daniewicz

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Simulation of plasticity-induced fatigue crack closure in part-through cracked geometries using finite element analysis

机译：使用有限元分析模拟通孔部分裂纹中塑性诱导的疲劳裂纹闭合

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The part-through semi-elliptical surface flaw is commonly encountered in engineering practice. Proper characterization of plasticity-induced crack closure is necessary to predict both flaw growth and flaw shape evolution under cyclic loading. Three-dimensional elastic-plastic finite element analyses are used to model the plasticity-induced closure developed along the surface flaw crack front, and the subsequent crack opening behavior under constant amplitude loading. Resulting crack opening stresses are compared with results from a strip-yield model and with experimentally measured values reported in the literature. It was found that the computed values were larger than those measured.

机译：在工程实践中经常遇到部分贯通的半椭圆形表面缺陷。适当地表征可塑性引起的裂纹闭合对于预测在周期性载荷下的缺陷增长和缺陷形状演变是必要的。三维弹塑性有限元分析被用来模拟沿表面缺陷裂纹前沿发展的塑性诱导的闭合，以及在恒定振幅载荷下随后的裂纹开放行为。将所得的裂纹开裂应力与带材屈服模型的结果以及文献中报道的实验测量值进行比较。发现计算值大于测量值。

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《Engineering Fracture Mechanics》 |2002年第1期|共11页
作者
J.D. Skinner; S.R. Daniewicz;
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正文语种 eng
中图分类工程力学;
关键词
plasticity-induced closure; finite element analysis; surface crack; part-through crack;

机译：塑性封闭;有限元分析;表面裂纹;贯通裂纹;

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1. Simulation of plasticity-induced fatigue crack closure in part-through cracked geometries using finite element analysis [J] . J.D. Skinner, S.R. Daniewicz Engineering Fracture Mechanics . 2002,第1期

机译：使用有限元分析模拟通孔部分裂纹中塑性诱导的疲劳裂纹闭合
2. Finite element modeling of plasticity-induced crack closure due to occasional mode II loading on mode I fatigue crack growth [J] . H. Matsunaga, M. Makizaki, K. Yanase Engineering Fracture Mechanics . 2013,第Null期

机译：由于I型疲劳裂纹扩展上偶尔出现的II型载荷而导致塑性诱导的裂纹闭合的有限元建模
3. Finite element modeling of plasticity-induced crack closure with emphasis on geometry and mesh refinement effects [J] . Kiran Solanki, S.R. Daniewicz, J.C. Newman Jr. Engineering Fracture Mechanics . 2003,第12期

机译：塑性引起的裂纹闭合的有限元建模，重点在于几何形状和网格细化效果
4. Finite element analysis of plasticity-induced fatigue crack closure using contact elements [C] . M. G. Gokcen, V. Kalenderoglu High performance structures and materials V . 2010

机译：使用接触元件的塑性诱导疲劳裂纹闭合的有限元分析
5. Two and three-dimensional finite element analysis of plasticity-induced fatigue crack closure: A comprehensive parametric study. [D] . Solanki, Kiran Nainmal. 2002

机译：塑性引起的疲劳裂纹闭合的二维和三维有限元分析：全面的参数研究。
6. A comparison of stress in cracked fibrous tissue specimens with varied crack location loading and orientation using finite element analysis [O] . John M. Peloquin, Dawn M. Elliott -1

机译：使用有限元分析比较裂纹位置载荷和方向不同的裂纹纤维组织标本中的应力
7. Numerical simulation of fatigue crack propagation with plasticity-induced crack closure under different loading conditions (Development of direct numerical simulation using S-version FEM and simplified method) [O] . Yuichi SHINTAKU, Yuto SHINOZAKI, Takaki FUJIWARA, 2019

机译：不同负载条件下塑性诱导裂纹闭合的疲劳裂纹传播的数值模拟（使用S型FEM和简化方法开发直接数值模拟）

Simulation of plasticity-induced fatigue crack closure in part-through cracked geometries using finite element analysis

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