Enhanced fatigue properties of ultrafine-grained Ti rods processed by ECAP-Conform

I. P. Semenova; A. V. Polyakov; G. I. Raab; T. C. Lowe; R. Z. Valiev

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Enhanced fatigue properties of ultrafine-grained Ti rods processed by ECAP-Conform

机译：通过ECAP-Conform处理的超细晶粒Ti棒的增强的疲劳性能

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This study is focused on enhancement of the fatigue properties of Ultrafine Grain titanium (UFG Ti) processed by ECAP-Conform and subsequent drawing. By examining specific combinations of ECAP-Conform and drawing, we have shown that the size and shape of grains, dislocation substructure formation, and grain boundary state are among the main microstructural parameters that determine the strength and ductility in UFG Ti. The increase in fatigue resistance of UFG Ti to 610 MPa was attributed to the high values of strength and ductility (UTS = 1290 MPa with elongation = 13 %) This value is comparable with the fatigue resistance of the titanium alloy Ti–6Al–4V.

机译：这项研究的重点是增强通过ECAP-Conform处理的超细晶粒钛（UFG Ti）的疲劳性能并进行后续拉伸。通过检查ECAP-Conform和图纸的特定组合，我们发现晶粒的大小和形状，位错亚结构的形成以及晶界状态是决定UFG Ti强度和延性的主要微观结构参数。 UFG Ti的耐疲劳性增加到610 MPa是由于强度和延展性较高（UTS = 1290 MPa，延伸率= 13％），该值与钛合金Ti–6Al–4V的耐疲劳性相当。

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《Journal of Materials Science》 |2012年第22期|p.7777-7781|共5页
作者
I. P. Semenova; A. V. Polyakov; G. I. Raab; T. C. Lowe; R. Z. Valiev;
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作者单位

Institute of Physics of Advanced Materials, Ufa State Aviation Technical University, Ufa, Russian Federation;

Institute of Physics of Advanced Materials, Ufa State Aviation Technical University, Ufa, Russian Federation;

Institute of Physics of Advanced Materials, Ufa State Aviation Technical University, Ufa, Russian Federation;

Manhattan Scientifics, Santa Fe, NM, USA;

Institute of Physics of Advanced Materials, Ufa State Aviation Technical University, Ufa, Russian Federation;

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1. Enhanced fatigue properties of ultrafine-grained Ti rods processed by ECAP-Conform [J] . Semenova I.P., Polyakov A.V., Raab G.I., Journal of Materials Science . 2012,第22期

机译：通过ECAP-Conform处理的超细晶粒Ti棒的增强的疲劳性能
2. Enhanced Mechanical Properties and Electrical Conductivity in Ultrafine-Grained Al 6101 Alloy Processed via ECAP-Conform [J] . Alexander Krokhin, Andrey Medvedev, Georgy Raab, Metals . 2015,第4期

机译：通过ECAP-Conform处理的超细晶粒Al 6101合金的增强的机械性能和电导率
3. Transformation of the microstructure and properties of ultrafine-grained TiNi alloys during the processing by ECAP-conform via the isothermal regime [J] . Anna Churakova, Dmitry Gunderov, Georgy Raab MATEC Web of Conferences . 2017,第1期

机译：通过等温制度的ECAP-Conform加工过程中超细晶粒色素合金的微观结构和性质的转化
4. Enhanced Fatigue Properties of Ultrafine-grained Titanium Rods Produced Using Severe Plastic Deformation [C] . I.P. Semenova, G.Kh. Salimgareeva, V.V. Latysh, European Materials Research Society Fall Meeting . 2008

机译：严重塑性变形产生的超细晶粒钛棒的增强的疲劳性能
5. The Relationships Between Microstructure, Tensile Properties and Fatigue Life in Ti-5Al-5V-5Mo-3Cr-0.4Fe (Ti-5553). [D] . Foltz, John W., IV. 2010

机译：Ti-5Al-5V-5Mo-3Cr-0.4Fe（Ti-5553）的组织，拉伸性能与疲劳寿命之间的关系。
6. Selective Laser Melting of Ti-6Al-4V: The Impact of Post-processing on the Tensile Fatigue and Biological Properties for Medical Implant Applications [O] . Parastoo Jamshidi, Miren Aristizabal, Weihuan Kong, 2020

机译：Ti-6Al-4V的选择性激光熔融：后处理对医用植入物的拉伸疲劳和生物学特性的影响
7. Enhanced Mechanical Properties and Electrical Conductivity in Ultrafine-Grained Al 6101 Alloy Processed via ECAP-Conform [O] . Maxim Murashkin, Andrey Medvedev, Vil Kazykhanov, 2015

机译：通过ECap-Conform处理的超细晶粒al 6101合金的增强机械性能和导电性
8. Quick Reaction Evaluation of Materials and Processes. Delivery Order 0011: Engineering Properties, Fatigue, and Crack Growth Data on SCS-6/Ti-6Al-4V Titanium Matrix Composite (16 Ply) Panels [R] . Hutson, A. L., Kleek, J. J. 2009

机译：材料和工艺的快速反应评估。交货单0011：sCs-6 / Ti-6al-4V钛基复合材料（16层）板的工程特性，疲劳和裂纹扩展数据

Enhanced fatigue properties of ultrafine-grained Ti rods processed by ECAP-Conform

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