Numerical modelling of crack shape evolution for surface flaws in round bars under tensile loading

J. Toribio; J.C. Matos; B. Gonzalez

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Numerical modelling of crack shape evolution for surface flaws in round bars under tensile loading

机译：拉力作用下圆棒表面缺陷裂纹形状演化的数值模拟

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This paper proposes a numerical procedure for calculating the crack shape evolution in semielliptic surface flaws in round bars under tensile loading, studying how the aspect ratio (relation between the semiaxes of the ellipse) changes with the relative crack depth. It was been assumed that each point at the crack front advances in direction perpendicular to such a front, according to the Paris-Erdogan Law. The stress intensity factor was computed using a triparametric expression proposed in the scientific literature. Numerical results of the present model agree fairly well with experimental results obtain in real prestressing steel wires tested in fatigue.

机译：本文提出了一种数值方法，计算拉力作用下圆棒中半椭圆形表面缺陷的裂纹形状演化，研究纵横比（椭圆半轴之间的关系）如何随相对裂纹深度的变化而变化。根据巴黎-埃尔多安定律，假定裂纹前沿的每个点都在垂直于该前沿的方向上前进。应力强度因子是使用科学文献中提出的三方表达式计算的。本模型的数值结果与在疲劳试验中的实际预应力钢丝中获得的实验结果非常吻合。

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《Engineering failure analysis》 |2009年第2期|共13页
作者
J. Toribio; J.C. Matos; B. Gonzalez;
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正文语种 eng
中图分类工程力学;
关键词
Numerical modelling; Fatigue crack propagation; Cracked cylinder;

机译：数值模拟;疲劳裂纹扩展;裂纹圆柱;

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专利

1. Numerical modelling of crack shape evolution for surface flaws in round bars under tensile loading [J] . J. Toribio, J.C. Matos, B. Gonzalez Engineering failure analysis . 2009,第2期

机译：拉力作用下圆棒表面缺陷裂纹形状演化的数值模拟
2. Numerical stress intensity factor calculation in flawed round bars validated by crack propagation tests [J] . J. Lebahn, H. Heyer, M. Sander Engineering Fracture Mechanics . 2013,第Null期

机译：通过裂纹扩展测试验证了有缺陷圆钢的数值应力强度因子计算
3. Crack tip field in eccentric circumferentially cracked round bar (CCRB) under tensile loading [J] . J. Toribio, B. Gonzalez, J.-C. Matos Fatigue & Fracture of Engineering Materials & Structures . 2018,第10期

机译：拉伸载荷作用下偏心圆周裂纹圆棒（CCRB）的裂纹尖端场
4. Stress intensity factor for an eccentric circular inner crack in a round bar subjected to tensile loading [C] . Jesus Toribio, Juan-Carlos Matos, Beatriz Gonzalez Virtual European Conference on Fracture . 2020

机译：圆形杆中偏心圆形内裂纹的应力强度因子进行拉伸载荷
5. Small crack initiation and formation - an investigation into equivalent initial flaw size and parallel offset surface crack interactions. [D] . Needham, Galen J. R. 2009

机译：小裂纹的产生和形成-对等效的初始缺陷尺寸和平行偏置的表面裂纹相互作用的研究。
6. Experimental and numerical investigation of the fatigue behaviour and crack evolution mechanism of granite under ultra-high-frequency loading [O] . Yu Zhou, Dajun Zhao, Qiongqiong Tang, 2020

机译：花岗岩超高频载荷下疲劳行为及裂纹扩展机理的实验与数值研究
7. Prediction of Surface Cracking during Cold Upsetting Process Using Bending Test and Notched Round Bar Tensile Test [O] . Masanobu MURATA, Yoshinori YOSHIDA, Takeshi NISHIWAKI 2018

机译：使用弯曲试验和缺口圆形钢筋拉伸试验预测冷镦处理过程中的表面裂纹
8. Continuum Models for Irregular Phase Boundary Motion in Shape-Memory Tensile Bars [R] . Rosakis, P., Knowles, J. K. 1997

机译：形状记忆拉伸棒中不规则相位边界运动的连续模型

Numerical modelling of crack shape evolution for surface flaws in round bars under tensile loading

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