3D modelling of plasticity induced fatigue crack closure-effect of material constitutive relations

Fernand Ellyin; Folarin Ozah

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3D modelling of plasticity induced fatigue crack closure-effect of material constitutive relations

机译：塑性诱导疲劳裂纹闭合的3D建模-材料本构关系

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3D finite element method is utilized to analyze the plasticity-induced crack closure (PICC)phenomenon in a cracked plate under constant-amplitude cyclic loading. To accurately capture the PICC process the choice of material model employed is of significant importance.This paper considers a relatively new model, the Ellyin–Xia elastic–plastic constitutive relations, and the more widely used kinematic hardening model. The study shows considerable difference in the results obtained while employing the two material models. Experimental results support the predictions by the Ellyin–Xia material model.

机译：利用3D有限元方法分析了在等幅循环荷载作用下裂纹板的塑性诱发裂纹闭合现象。为了准确地掌握PICC过程，选择材料模型非常重要。本文考虑了一个相对较新的模型，即Ellyin-Xia弹塑性本构关系以及使用更广泛的运动硬化模型。研究表明，在采用两种材料模型时获得的结果存在很大差异。实验结果支持了Ellyin-Xia材料模型的预测。

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《Engineering Fracture Mechanics》 |2010年第11期|共15页
作者
Fernand Ellyin; Folarin Ozah;
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正文语种 eng
中图分类工程力学;
关键词
Plasticity; Crack closure; Material model; 3D finite element analysis; Crack opening; Centre cracked plate; Fatigue loading; Crack opening displacement; Crack-tip stress–strain fields; Residual stresses;

机译：塑性;裂纹闭合;材料模型;3D有限元分析;裂纹张开;中心裂纹板;疲劳载荷;裂纹张开位移;裂纹尖端应力应变场;残余应力;

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1. 3D modelling of plasticity induced fatigue crack closure-effect of material constitutive relations [J] . Fernand Ellyin, Folarin Ozah Engineering Fracture Mechanics . 2010,第11期

机译：塑性诱导疲劳裂纹闭合的3D建模-材料本构关系
2. Homogenized constitutive and fatigue nucleation models from crystal plasticity FE simulations of Ti alloys, Part 2: Macroscopic probabilistic crack nucleation model [J] . Anahid M., Ghosh S. International Journal of Plasticity . 2013,第Null期

机译：钛合金晶体塑性有限元模拟的均质本构和疲劳成核模型，第2部分：宏观概率裂纹成核模型
3. A cyclic steady-state method for fatigue crack propagation: Evaluation of plasticity-induced crack closure in 3D [J] . Lê Minh B., Maitournam M.H., Doquet V. International Journal of Solids and Structures . 2012,第17期

机译：疲劳裂纹扩展的循环稳态方法：3D中塑性诱导的裂纹闭合的评估
4. Influence of crack front shape on 3D numerical modelling of plasticity-induced closure of short and long fatigue cracks [C] . S.Fiordalisi, C. Gardin, C. Sarrazin-Baudoux, International conference on fracture and damage mechanics . 2014

机译：裂纹前部形状对塑性诱导的短时和长时疲劳裂纹闭合的3D数值模拟的影响
5. A crystal plasticity based methodology for modeling fatigue crack initiation and estimating material coefficients to predict fatigue crack initiation life at micro, nano and macro scales. [D] . Voothaluru, Rohit. 2014

机译：一种基于晶体可塑性的方法，用于建模疲劳裂纹萌生和估算材料系数，以预测微观，纳米和宏观尺度的疲劳裂纹萌生寿命。
6. Effect of the Crack Tip Bifurcation on the Plasticity-Induced Fatigue Propagation in Metallic Materials [O] . Jesús Toribio, Beatriz González, Juan-Carlos Matos 2021

机译：裂纹尖端分叉对金属材料塑性诱导疲劳繁殖的影响
7. Finite element simulation of plasticity induced crack closure with different material constitutive models [O] . Rodrigues D. M., Antunes F. V. 2009

机译：不同材料本构模型的塑性诱导裂纹闭合的有限元模拟
8. Fatigue Crack Growth Model RANDOM2 User Manual. Appendix 1: Development of Advanced Methodologies for Probabilistic Constitutive Relationships of Material Strength Models [R] . Boyce, L., Lovelace, T. B. 1989

机译：疲劳裂纹扩展模型RaNDOm2用户手册。附录1：材料强度模型的概率本构关系的先进方法的发展

3D modelling of plasticity induced fatigue crack closure-effect of material constitutive relations

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