Critical Strain Energy Density along the Curved Front of the Growing Fatigue Crack

机译：临界应变能量密度沿着生长疲劳裂纹的弯曲前部

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Elastic-plastic deformation mechanics ahead of the curved fronts of planar fatigue cracks in CCP specimens of Al 2024 was modeled using FEM. The results are discussed in light of the immediate local front rate estimations which are based on the strain energy accumulation analysis. The comparison of the theoretical model with experiments shows that the critical strain energy density to local fatigue fracture is not a material constant. The critical energy density generally depends on both the distance from the free surface and the crack length.

机译：使用FEM建模使用AL 2024的CCP标本中的平面疲劳裂缝的弯曲前部的弹性塑性变形力学。鉴于基于应变能量累积分析的立即局部前速率估计来讨论结果。理论模型与实验的比较表明，临界应变能量密度与局部疲劳骨折不是一种材料恒定。临界能量密度通常取决于距离自由表面和裂缝长度的距离。

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《International Conference on Materials Structure and Micromechanics of Fracture》|2005年||共4页
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T. Denk; V. Oliva; A. Materna;
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中图分类 TB3-53;
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3D fatigue crack FEM model; curved fatigue crack front; critical strain energy density; fatigue crack rate prediction;

机译：3D疲劳裂缝FEM模型;弯曲疲劳裂缝前;临界应变能量密度;疲劳裂缝预测;

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1. In situ mapping of normal strains in the field of a growing fatigue crack in a steel weld using digital image correlation and energy dispersive synchrotron X-ray diffraction [J] . T. Wigger, C. Lupton, S. Alshammrei, International Journal of Fatigue . 2018,第OCTa期

机译：使用数字图像关联和能量色散同步加速器X射线衍射对钢焊缝中疲劳裂纹扩展领域中的正常应变进行原位测绘
2. Numerical simulation of fatigue plasticity-induced crack closure for through cracks with curved fronts [J] . Gardin Catherine, Fiordalisi Saverio, Sarrazin-Baudoux Christine, Engineering Fracture Mechanics . 2016,第期

机译：弯曲弯曲抗疲劳诱导裂纹闭合的数值模拟
3. Strain visualization of growing short fatigue cracks in the heat-affected zone of a Ni-Cr-Mo-V steel welded joint: Intergranular cracking and crack closure [J] . Liu Shi-Dong, Zhu Ming-Liang, Zhou Hai-Bo, International Journal of Pressure Vessels and Piping . 2019,第期

机译：在Ni-Cr-Mo-V钢焊接接头的热影响区域中生长短疲劳裂缝的应变可视化：晶间裂缝和裂缝闭合
4. Critical Strain Energy Density along the Curved Front of the Growing Fatigue Crack [C] . T. Denk, V. Oliva, A. Materna International Conference on Materials Structure and Micromechanics of Fracture . 2005

机译：临界应变能量密度沿着生长疲劳裂纹的弯曲前部
5. APPLICATION OF FRACTURE MECHANICS PRINCIPLES TO FATIGUE CRACK GROWTH IN A POWDER METALLURGY NICKEL-BASE SUPERALLOY (STRAIN ENERGY DENSITY, SHORT CRACK, ELEVATED TEMPERATURE, ASTROLOGY). [D] . VECCHIO, ROBERT SCOTT. 1985

机译：断裂力学原理在粉末冶金镍基高温合金中疲劳裂纹扩展的应用（主能密度，短裂纹，升高的温度，占星学）。
6. Low Cycle Fatigue Life Prediction Model of 800H Alloy Based on the Total Strain Energy Density Method [O] . Wei Zhang, Tao Jiang, Liqiang Liu 2020

机译：基于总应变能密度法的800H合金低周疲劳寿命预测模型
7. Critical Strain Energy Density Along the Curved Front of the Growing Fatigue Crack [O] . Tomáš Denk, Vladislav Oliva, B Aleš Materna 2015

机译：沿着弯曲前沿的临界应变能密度增长疲劳裂纹

Critical Strain Energy Density along the Curved Front of the Growing Fatigue Crack

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