Accounting for initial plastic deformation for fatigue crack growth predictions under TMF loading condition

Jordi Loureiro-Homs; David Gustafsson; Per Almroth; Kjell Simonsson; Robert Eriksson; Daniel Leidermark

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Accounting for initial plastic deformation for fatigue crack growth predictions under TMF loading condition

机译：在TMF负载条件下占疲劳裂纹生长预测的初始塑性变形

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Crack propagation rates from isothermal and in-phase high temperature thermomechanical fatigue crack propagation tests for Inconel 792 resulted in a rather large scatter band when plotted against the linear-elastic stress intensity function ΔK. Previous observations indicated that the residual strains generated during the first few cycles in the uncracked specimen can explain, to a large extent, the differences between the tests. An effective ΔK_(eff) was calculated for each test based on non-linear FE simulations. When the crack propagation rates for each test were plotted against the calculated ΔK_(eff), the curves collapsed to a smaller scatter band.

机译：来自等温和相位高温热机械疲劳裂缝裂纹传播试验的裂纹传播速率对于Inconel 792产生时，当绘制线性弹性应力强度函数ΔK时，产生相当大的散射带。先前的观察结果表明，在很大程度上，在未加密的标本中的前几个循环期间产生的残留菌株可以在很大程度上解释测试之间的差异。基于非线性FE模拟计算每个测试的有效ΔK（EFF）。当对每个测试裂纹扩展率对所计算出的ΔK_（EFF）作图，曲线折叠到一个较小的散射带。

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来源
《International Journal of Fatigue》 |2020年第7期|105569.1-105569.8|共8页
作者
Jordi Loureiro-Homs; David Gustafsson; Per Almroth; Kjell Simonsson; Robert Eriksson; Daniel Leidermark;
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作者单位

Division of Solid Mechanics Linkoeping University SE-58183 Linkoeping Sweden;

Siemens Industrial Turbomachinery AB SE-61283 Finspang Sweden;

Siemens Industrial Turbomachinery AB SE-61283 Finspang Sweden;

Division of Solid Mechanics Linkoeping University SE-58183 Linkoeping Sweden;

Division of Solid Mechanics Linkoeping University SE-58183 Linkoeping Sweden;

Division of Solid Mechanics Linkoeping University SE-58183 Linkoeping Sweden;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Crack propagation; Inconel 792; Initial plastic strain; Residual stress; Thermomechanical fatigue; Turbine blade;

机译：裂缝繁殖;Inconel 792;初始塑性应变;残余压力;热机械疲劳;涡轮叶片;

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专利

1. Fatigue Crack Propagation in Heat-Resistant Alloys under Thermomechanical Loading Conditions. Part 1. Method of Accounting the Effect of Thermomechanical Loading on Crack Propagation Resistance of Material [J] . TROSHCHENKO V. T, GRYAZNOV B. A, KONONUCHENKO O. V Проблемы прочности . 2000,第6期

机译：热机械载荷条件下耐热合金的疲劳裂纹扩展。第1部分。估算热机械载荷对材料抗裂纹扩展性影响的方法
2. Fatigue Crack Propagation in Heat-Resistant Alloys under Thermomechanical Loading Conditions. Part 1. Method of Accounting the Effect of Thermomechanical Loading on Crack Propagation Resistance of Material [J] . TROSHCHENKO V. T, GRYAZNOV B. A, KONONUCHENKO O. V Проблемы прочности . 2000,第6期

机译：热机械载荷条件下耐热合金的疲劳裂纹扩展。第1部分。评估热机械载荷对材料抗裂纹扩展性影响的方法
3. Fatigue Crack Propagation in Heat-Resistant Alloys under Thermomechanical Loading Conditions. Part 1. Method of Accounting the Effect of Thermomechanical Loading on Crack Propagation Resistance of Material [J] . TROSHCHENKO V. T, GRYAZNOV B. A, KONONUCHENKO O. V Проблемы прочностиПроблемы прочности: на рус．укр．и анг．языках . 2000,第6期

机译：热机械载荷条件下耐热合金的疲劳裂纹扩展。第1部分。计算热机械载荷对材料抗裂纹扩展性影响的方法
4. Accounting for Initial Plastic Deformation for Fatigue Crack Growth in Turbine Blading Components [C] . J. Loureiro Homs, D. Gustafsson, P. Almroth, International Conference on the Mechanical Behaviour of Materials . 2019

机译：涡轮叶片组分疲劳裂纹增长的初始塑性变形
5. FATIGUE BEHAVIOR UNDER MULTIAXIAL LOADING IN THE PRESENCE OF A NOTCH: METHODOLOGIES FOR THE PREDICTION OF LIFE TO CRACK INITIATION AND LIFE SPENT IN CRACK PROPAGATION (SHOULDER FILLET, PLASTIC STRAIN, PREDICTION). [D] . TIPTON, STEVEN MICHAEL. 1985

机译：有缺口的情况下在多轴载荷下的疲劳行为：预测裂纹扩展中的寿命至裂纹萌生和寿命的方法学（胎片，塑性应变，预测）。
6. Study of the Fatigue Crack Growth in Long-Term Operated Mild Steel under Mixed-Mode (I + II I + III) Loading Conditions [O] . Grzegorz Lesiuk, Michał Smolnicki, Dariusz Rozumek, 2020

机译：混合模式（I + III + III）载荷条件下长期运行的低碳钢的疲劳裂纹扩展研究
7. The Fatigue Surface Cracks Growth Model Taking into Account Plastic Deformations for a Cylinder of a Low-speed Long-stroke Compressor [O] . Vansovich K.A., Aistov I.P., Yadrov V.I. 2016

机译：考虑低速长冲程压缩机气缸塑性变形的疲劳表面裂纹增长模型
8. Computational and Experimental Studies to Demonstrate Accuracy of Crack3D. Delivery Order 0001: Stable Tearing Predictions Using Large Deformation Kinematics and General 3D Crack Growth Algorithms Under Mixed Mode Loading Conditions [R] . Sutton, M. A. , Deng, X. , Zuo, J. 2006

机译：计算和实验研究证明Crack3D的准确性。交货单0001：在混合模式加载条件下使用大变形运动学和一般3D裂纹增长算法的稳定撕裂预测

Accounting for initial plastic deformation for fatigue crack growth predictions under TMF loading condition

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