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Crack initiation in VHCF regime on forged titanium alloy under tensile and torsion loading modes

机译：在拉伸和扭转载荷模式下，锻造钛合金在VHCF范围内的裂纹萌生

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This paper is focused on the VHCF behavior of aeronautical titanium alloy under tensile and torsion fatigue loadings. Tensile tests were carried out with two different stress ratios: R = À1 and R = 0.1. Both surface and subsurface crack initiations were observed. In the case of subsurface crack initiation several fatigue life controlling mechanisms of crack initiation were found under fully-reversed loading conditions: initiation from (1) strong defects; (2) ‘macro-zone’ borders; (3) quasi-smooth facets and (4) smooth facets. Tests with stress ratio R = 0.1, have shown that initiation from the borders of ‘macro-zones’ becomes the dominant crack initiation mechanism in presence of positive mean stress. Like for the tensile results, surface and subsurface crack initiations were observed under ultrasonic torsion in spite of the maximum shear stress location on the specimen surface. But the real reason for the subsurface crack initiation under torsion was not found.

机译：本文重点研究航空钛合金在拉伸和扭转疲劳载荷下的VHCF行为。在两种不同的应力比下进行了拉伸试验：R =À1和R = 0.1。观察到表面和地下裂纹萌生。在地下裂纹萌生的情况下，在完全反向的载荷条件下，发现了几种裂纹萌生的疲劳寿命控制机制：（1）强缺陷；（2）“大区域”边界；（3）准光滑的小平面和（4）光滑的小平面。应力比R = 0.1的测试表明，在存在正平均应力的情况下，从“宏观区域”边界的萌生成为主要的裂纹萌生机制。与拉伸结果一样，尽管试样表面上的剪切应力最大，但在超声扭转下仍观察到了表面和亚表面的裂纹萌生。但是没有找到在扭转作用下引发地下裂纹的真正原因。

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NIKITIN, Alexander; PALIN-LUC, Thierry; SHANYAVSKIY, Andrey;
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年度 2016
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专利

1. Crack initiation in VHCF regime on forged titanium alloy under tensile and torsion loading modes [J] . A. Nikitin, T. Palin-Luc, A. Shanyavskiy International Journal of Fatigue . 2016,第pta2期

机译：在拉伸和扭转载荷模式下，锻造钛合金在VHCF范围内的裂纹萌生
2. Comparison of crack paths in a forged and extruded aeronautical titanium alloy loaded in torsion in the gigacycle fatigue regime [J] . Nikitin A., Palin-Luc T., Shanyavskiy A., Engineering Fracture Mechanics . 2016,第Null期

机译：在千兆疲劳状态下扭转载荷下锻造和挤压航空钛合金的裂纹路径比较
3. Crack initiation and early propagation plane orientation of 2A12-T4 aluminum alloy under tension-torsion fatigue loading including mean tensile stress [J] . Shi Xinhong, Zhang Jianyu, Xiao Qingshan, Frattura e Integrita Strutturale . 2015,第35期

机译：2A12-T4铝合金在包括平均拉伸应力的拉伸扭转疲劳载荷下的裂纹萌生和早期传播平面取向
4. Fatigue crack initiation and growth on an extruded titanium alloy in gigacycle regime: comparison between tension and torsion loadings [C] . Alexander Nikitin, Thierry Palin-Luc, Andrey Shanyavskiy European Conference on Fracture . 2016

机译：浮动制度挤出钛合金疲劳裂纹引发和生长：张力和扭转载荷之间的比较
5. Tensile crack initiation in gamma-titanium aluminide. [D] . Simkin, Benjamin Andrew. 2003

机译：γ-钛铝化物中的拉伸裂纹萌生。
6. Effect of solution treatment on stress corrosion cracking behavior of an as-forged Mg-Zn-Y-Zr alloy [O] . S. D. Wang, D. K. Xu, B. J. Wang, -1

机译：固溶处理对锻造Mg-Zn-Y-Zr合金应力腐蚀开裂行为的影响
7. Crack initiation in VHCF regime on forged titanium alloy under tensile and torsion loading modes [O] . NIKITIN, Alexander, PALIN-LUC, Thierry, SHANYAVSKIY, Andrey 2016

机译：在拉伸和扭转载荷模式下，锻造钛合金在VHCF范围内的裂纹萌生
8. Crack Initiation and Propagation in a Forged Nickel-Base Alloy under High Mechanical and Thermal Loading [R] . Scarlin, R. B. 1982

机译：高机械热负荷下锻造镍基合金的裂纹萌生与扩展

Crack initiation in VHCF regime on forged titanium alloy under tensile and torsion loading modes

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