Analytical calculation of the stress intensity factor in a surface cracked plate submitted to thermal fatigue loading

Hoai Nam Le; Catherine Gardin

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Analytical calculation of the stress intensity factor in a surface cracked plate submitted to thermal fatigue loading

机译：承受热疲劳载荷的表面裂纹板应力强度因子的解析计算

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A stainless steel specimen with a pre-existing surface notch is exposed to a convective medium of cyclic temperature. The history of stress intensity factor of the cracked body for different crack lengths is obtained by a closed-form integration of the stress field, using Duhamel’s theory with principle of superposition and appropriate weight functions. The obtained results are compared with numerical simulations performed with ABAQUS and they appear to be in very good agreement. The stress intensity factor history shows that fatigue behavior does not depend only on temperature amplitude △T = T_(max) - T_(min), quenching rate, and duration of thermal shock but also on heating rate and duration.

机译：将具有预先存在的表面凹口的不锈钢样品暴露于循环温度的对流介质中。通过使用Duhamel的理论（具有叠加原理和适当的权重函数），通过闭合形式的应力场积分，获得了不同裂纹长度下裂纹体的应力强度因子的历史。将获得的结果与用ABAQUS进行的数值模拟进行比较，它们看起来非常吻合。应力强度因子的历史记录表明，疲劳行为不仅取决于温度幅度△T = T_（max）-T_（min），淬火速率和热冲击持续时间，还取决于加热速率和持续时间。

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《Engineering Fracture Mechanics》 |2010年第12期|共16页
作者
Hoai Nam Le; Catherine Gardin;
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正文语种 eng
中图分类工程力学;
关键词
Stress intensity factor; Thermo-elasticity; Thermal cycling; Crack growth; Cooling/heating time;

机译：应力强度因子;热弹性;热循环;裂纹扩展;冷却/加热时间;

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1. Analytical calculation of the stress intensity factor in a surface cracked plate submitted to thermal fatigue loading [J] . Hoai Nam Le, Catherine Gardin Engineering Fracture Mechanics . 2010,第12期

机译：承受热疲劳载荷的表面裂纹板应力强度因子的解析计算
2. Analytical and Numerical Solution of the Stress Field and the Dynamic Stress Intensity Factors in a Cracked Plate under Sinusoidal Loading [J] . Abdessattar Aloui, Khemais Hamrouni, Tahar Fakhfakh, Journal of Failure Analysis and Prevention . 2008,第6期

机译：正弦载荷下裂纹板应力场与动应力强度因子的解析和数值解
3. Finite element modelling of fatigue crack growth of surface cracked plates: part III: stress intensity factor and fatigue crack growth life [J] . X. B. Lin, R. A. Smith Engineering Fracture Mechanics . 1999,第5期

机译：表面裂纹板疲劳裂纹扩展的有限元建模：第三部分：应力强度因子和疲劳裂纹扩展寿命
4. Calculation of stress intensity factors K_I, K_II and K_III of cracked components submitted to flexural and torsional loads [C] . J. Isidoro, Rui F. Martins International Colloquium on Mechanical Fatigue of Metals . 2016

机译：计算弯曲和扭转负荷的裂纹组件的应力强度因子K_I，K_II和K_III的计算
5. Stress intensity factors and weight functions for surface cracked plates and welded joints. [D] . Wang, Xin. 1998

机译：表面开裂的板和焊接接头的应力强度因子和权重函数。
6. Weight Function Method for Stress Intensity Factors of Semi-Elliptical Surface Cracks on Functionally Graded Plates Subjected to Non-Uniform Stresses [O] . Kun-Pang Kou, Jin-Long Cao, Yang Yang, 2020

机译：具有非均匀应力的功能梯度板上半椭圆形表面裂缝应力强度因子的重量函数方法
7. Calculation of Stress Intensity Factors KI, KII and KIII of Cracked Components Submitted to Flexural and Torsional Loads [O] . Isidoro J., Martins Rui F. 2016

机译：弯曲和扭转载荷作用下裂纹组件的应力强度因子KI，KII和KIII的计算
8. MODE Ⅱ STRESS INTENSITY FACTORS IN EDGE CRACKED PLATES SUBJECTED TO ASYMMETRICAL TRANSIENT THERMAL STRESSES [R] . A. F. Emery, P. K. Neighbors 1977

机译：非对称瞬态热应力下边缘裂纹板的Ⅱ型应力强度因子

Analytical calculation of the stress intensity factor in a surface cracked plate submitted to thermal fatigue loading

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