Cyclic Deformation Behavior And Fatigue Lives Of Ultrafine-grained Ti-6al-4v Eli Alloy For Medical Use

L.R. Saitova; H.W. Hoeppel; M. Goeken; I.P. Semenova; R.Z. Valiev

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Cyclic Deformation Behavior And Fatigue Lives Of Ultrafine-grained Ti-6al-4v Eli Alloy For Medical Use

机译：医用Ti-6al-4v Eli超细晶粒合金的循环变形行为和疲劳寿命

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It was shown that introducing an ultrafine-grained (UFG) microstructure in pure metals as well as some alloys leads to strongly enhanced fatigue properties. The cyclic deformation behavior of UFG Ti-6Al-4V ELI (extra low interstitials) alloy is studied by both strain and stress controlled fatigue tests using plastic strain amplitudes between 3 × 10~(-4) and 5 × 10~(-3) and stress amplitudes ranging from 550 to 670 MPa. The UFG microstructures were obtained by equal channel angular pressing (ECAP) with different number of passes followed by a subsequent thermomechanical treatment (TMT). When compared to the conventional grain (CG) size counterpart, the UFG alloy exhibited a pronounced enhancement in the fatigue life in the S-N (Woehler) diagram. It was also shown that additional UFG processing prior to TMT did not result in any further improvement of the fatigue resistance. Furthermore, microstructural investigations revealed a high cyclic stability of the UFG microstructure.

机译：结果表明，在纯金属以及某些合金中引入超细晶粒（UFG）显微组织会大大增强疲劳性能。 UFG Ti-6Al-4V ELI（超低间隙）合金的循环变形行为通过应变和应力控制疲劳试验研究，使用的塑性应变幅度在3×10〜（-4）和5×10〜（-3）之间应力幅度在550到670 MPa之间。 UFG微观结构是通过等通道角压（ECAP）进行不同次数的通过，然后进行后续的热机械处理（TMT）获得的。与传统的晶粒（CG）尺寸相比，UFG合金在S-N（Woehler）图中的疲劳寿命显着提高。还表明，在TMT之前进行额外的UFG处理不会导致疲劳强度的任何进一步改善。此外，微结构研究显示了UFG微结构的高循环稳定性。

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来源
《International Journal of Fatigue 》 |2009年第2期| 322-331| 共10页
作者
L.R. Saitova; H.W. Hoeppel; M. Goeken; I.P. Semenova; R.Z. Valiev;
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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
ti-6al-4v; ultrafine-grained material; fatigue strength; s-n curves; damage;

机译：ti-6al-4v;超细晶粒材料;疲劳强度;s-n曲线;损伤;

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专利

1. Fatigue Behavior Of Ultrafine-grained Ti-6al-4v 'eli' Alloy For Medical Applications [J] . L.R. Saitova, H.W.Hoeppel, M. Goeken, Materials Science and Engineering . 2009 ,第1a2期

机译：医用Ti-6al-4v'eli'超细晶粒合金的疲劳行为
2. Assessment of the Fatigue Behavior of Ti-6Al-4V ELI Alloy with Surface Treated by Nd:YAG Laser Irradiation [J] . Fernanda?Potomati, Leonardo Contri?Campanelli, Paulo Sergio Carvalho Pereira da?Silva, Materials Research . 2019 ,第4期

机译：用Nd处理Ti-6Al-4V Eli合金的疲劳行为评估Nd：YAG激光辐照
3. Influence of a Femtosecond Laser Surface Modification on the Fatigue Behavior of Ti-6Al-4V ELI Alloy [J] . Alan dos?Santos, Leonardo Contri?Campanelli, Paulo Sergio Carvalho Pereira da?Silva, Materials Research . 2019 ,第4期

机译：飞秒激光表面改性对Ti-6Al-4V Eli合金疲劳行为的影响
4. Cyclic deformation behaviour and fatigue lives of ultrafine-grained Aluminium-Magnesium alloys [C] . H. W. Hoeppel, J. May, M. Goeken Nanomaterials by sever plastic deformation IV . 2008

机译：超细晶粒铝镁合金的循环变形行为和疲劳寿命
5. Fatigue behavior of Ti-6Al-4V ELI including mean stress effects [D] . Carrion, Patricio E. 2016

机译：TI-6AL-4V ELI的疲劳行为包括平均应力效应
6. Cyclic deformation and fatigue data for Ti–6Al–4V ELI under variable amplitude loading [O] . Patricio E. Carrion, Nima Shamsaei, Robert D. Moser 2017

机译：变幅载荷下Ti–6Al–4V ELI的循环变形和疲劳数据
7. Superplastic behavior of ultrafine-grained Ti−6Al−4V ELI alloy produced by severe plastic deformation [O] . Semenova I.P., Saitova L.R., Raab G.I., 2006

机译：严重塑性变形产生的Ti-6Al-4V ELI超细晶粒合金的超塑性行为
8. Low Cycle Fatigue Behavior of Ti-6Al-2Sn-4Zr-6Mo. Part II. Cyclic Deformation Behavior and Low Cycle Fatigue. [R] . Mahajan, Y., Margolin, H. 1980

机译：Ti-6al-2sn-4Zr-6mo的低周疲劳行为。第二部分。循环变形行为与低周疲劳。

Cyclic Deformation Behavior And Fatigue Lives Of Ultrafine-grained Ti-6al-4v Eli Alloy For Medical Use

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