Deformation in fatigue crack tip plastic zone and its role in crack propagation of titanium alloy with tri-modal microstructure

Gao P. F.; Lei Z. N.; Wang X. X.; Zhan M.

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Deformation in fatigue crack tip plastic zone and its role in crack propagation of titanium alloy with tri-modal microstructure

机译：三峰组织的钛合金疲劳裂纹尖端塑性区的变形及其在裂纹扩展中的作用

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A combination of scanning electron microscopy and electron backscatter diffraction is used to investigate the deformation in the fatigue crack tip plastic zone and its role in the crack propagation of Ti-6Al-2Zr-1Mo-1V alloy with a tri-modal microstructure. The results show that heterogenous slip and secondary micro-cracks are the main features of the fatigue crack tip plastic zone. These features play important roles in fatigue crack propagation. In particular, the unique lamellar a in the tri-modal microstructure can deflect and delay the crack propagation effectively, thus, improving the fatigue life.

机译：结合扫描电子显微镜和电子反向散射衍射技术研究了具有三峰组织的Ti-6Al-2Zr-1Mo-1V合金在疲劳裂纹尖端塑性区的变形及其在裂纹扩展中的作用。结果表明，非均匀滑动和二次微裂纹是疲劳裂纹尖端塑性区的主要特征。这些特征在疲劳裂纹扩展中起重要作用。特别地，三峰微观结构中独特的层状结构a可以有效地偏转和延迟裂纹的扩展，从而提高疲劳寿命。

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《Materials Science and Engineering》 |2019年第2期|198-202|共5页
作者
Gao P. F.; Lei Z. N.; Wang X. X.; Zhan M.;
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Northwestern Polytech Univ, State Key Lab Solidificat Proc, Shaanxi Key Lab High Performance Precis Forming T, Sch Mat Sci & Engn, POB 542, Xian 710072, Shaanxi, Peoples R China;

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Titanium alloy; Tri-modal microstructure; Fatigue crack propagation; Crack tip plastic zone;

机译：钛合金;三态组织;疲劳裂纹扩展;裂纹尖端塑性区;

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1. Deformation twinning in fatigue crack tip plastic zone of Ti-6Al-4V alloy with Widmanstatten microstructure [J] . Yingjie Ma, Qi Xue, Hao Wang, Materials Characterization . 2017,第期

机译：WIDMANSTATTEN微观结构的TI-6AL-4V合金疲劳裂纹尖塑区孪生变形
2. The Role of Local Microstructure on Small Fatigue Crack Propagation in an α + β Titanium Alloy, Ti-6Al-2Sn-4Zr-6Mo [J] . C. J. Szczepanski, S. K. Jha, J. M. Larsen, Metallurgical and Materials Transactions A . 2012,第11期

机译：局部组织对α+β钛合金Ti-6Al-2Sn-4Zr-6Mo小疲劳裂纹扩展的作用
3. The Role of Local Microstructure on Small Fatigue Crack Propagation in an α + β Titanium Alloy, Ti-6Al-2Sn-4Zr-6Mo [J] . C.J. SZCZEPANSKI, S.K. JHA, J.M. LARSEN Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2012,第11期

机译：局部组织对α+β钛合金Ti-6Al-2Sn-4Zr-6Mo中小疲劳裂纹扩展的作用
4. CHARACTERIZATION OF FATIGUE CRACK TIP PLASTIC ZONE OF α/β TITANIUM ALLOYS WITH LAMELLAR AND EQUIAXED MICROSTRUCTURES [C] . Yingjie Ma, Jiafeng Lei, Yuyin Liu World Conference on Titanium . 2016

机译：α/β钛合金疲劳裂纹尖塑区的表征，包括层状和等轴微结构的α/β钛合金
5. Role of crack nucleation versus propagation on the fatigue behavior of titanium-vanadium-iron-aluminum beta titanium alloy. [D] . Srinivasan, Shankar Pattamadai. 2002

机译：裂纹成核与扩展对钛钒铁铝β钛合金疲劳行为的作用。
6. Characterization and Analysis of Strain Heterogeneity at Grain-Scale of Titanium Alloy with Tri-Modal Microstructure during Tensile Deformation [O] . Pengfei Gao, Yanxi Li, Ronghai Wu, 2018

机译：三模态钛合金拉伸变形过程中晶粒尺寸应变异质性的表征与分析
7. Fatigue, Cyclic Deformation and Microstructure. Constant .DELTA.K Fatigue Crack Growth Tests under Programmed Humidity Cycle Conditions. As a Tool to Evaluate the Effect of Humidity on Fatigue Crack Growth of Al-Li Alloys. [O] . Shinji Kumai, Akinori Sekikawa, Akihiko Yoshikawa, 1997

机译：疲劳，循环变形和微观结构。常数.Delta.k疲劳裂缝在编程湿度循环条件下的裂纹生长试验。作为评估湿度对Al-Li合金疲劳裂纹生长的工具。
8. Deformation Microstructure Developed during Fatigue Crack Propagation in Type 316 Stainless Steel at 593 C [R] . Michel, D. J., Smith, H. H. 1981

机译：变形微观结构在316不锈钢在593℃的疲劳裂纹扩展过程中发展

Deformation in fatigue crack tip plastic zone and its role in crack propagation of titanium alloy with tri-modal microstructure

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