循环载荷作用下圆钢丝表面裂纹发展的建模

J. Toribio, J. Matos, B. González, J. Escuadra
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引用次数: 0

摘要

本文给出了由不同材料构成的圆杆(由Paris定律的m指数决定)在疲劳拉伸载荷(带自由端)和疲劳弯曲载荷作用下表面裂纹前缘的演化过程。为此,根据Paris-Erdogan定律,采用三参数应力强度因子(SIF),在裂缝前沿(以椭圆形状为特征)和垂直于裂缝前沿的每个点的裂缝推进离散化的基础上,建立了数值模型。每个分析案例都以半椭圆裂纹前沿的演化特征为特征,研究了以下三个关键变量随相对裂纹深度a/D的演化过程:(i)裂纹长径比a/b(定义裂纹前沿的椭圆半轴之间的关系);(ii)最大无因次SIF;(iii)最小无因次SIF。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling of Surface Crack Advance in Round Wires Subjected to Cyclic Loading
This paper shows the evolution of the surface crack front in round bars constituted of different materials (determined by the exponent m of the Paris law), subjected to fatigue tension loading (with free ends) or fatigue bending loading. To this end, a numerical modeling was developed on the basis of a discretization of the crack front (characterized with elliptical shape) and the crack advance at each point perpendicular to such a front, according to a Paris-Erdogan law, using a three-parameter stress intensity factor (SIF). Each analyzed case was characterized by the evolution of the semielliptical crack front, studying the progress with the relative crack depth a/D of the following three key variables: (i) crack aspect ratio a/b (relation between the semiaxes of the ellipse which defines the crack front); (ii) maximum dimensionless SIF; and (iii) minimum dimensionless SIF.
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