Functional fatigue behavior of superelastic beta Ti-22Nb-6Zr(at%) alloy for load-bearing biomedical applications

V. Sheremetyev; V. Brailovski; S. Prokoshkin; K. Inaekyan; S. Dubinskiy

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Functional fatigue behavior of superelastic beta Ti-22Nb-6Zr(at%) alloy for load-bearing biomedical applications

机译：超弹性βTi-22Nb-6Zr（at％）合金在承重生物医学应用中的功能疲劳行为

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摘要

Ti-22Nb-6Zr (at.%) alloy with different processing-induced microstructures (highly-dislocated partially recovered substructure, polygonized nanosubgrained (NSS) dislocation substructure, and recrystallized structure) was subjected to strain-controlled tension-tension fatigue testing in the 02...1.5% strain range (run-out at 10^6 cycles). The NSS alloy obtained after cold-rolling with 0.3 true strain and post-deformation annealing at 600 ℃ showed the lowest Young's modulus and globally superior fatigue performance due to the involvement of reversible stress-induced martensitic transformation in the deformation process. This NSS structure appears to be suitable for biomedical applications with an extended variation range of loading conditions (orthopedic implants).

机译：在加工过程中，对具有不同加工诱导组织（高度错位的部分恢复的子结构，多晶的纳米亚晶粒（NSS）的位错子结构和重结晶的组织）的Ti-22Nb-6Zr（at。％）合金进行了应变控制的拉伸-拉伸疲劳试验。 02 ... 1.5％应变范围（以10 ^ 6周期跳动）。由于在变形过程中涉及可逆应力诱发的马氏体相变，因此在0.3真应变冷轧和600℃变形后退火后获得的NSS合金具有最低的杨氏模量和整体上优越的疲劳性能。这种NSS结构似乎适用于负荷条件变化范围较大的生物医学应用（骨科植入物）。

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来源
《Materials science & engineering 》 |2016年第1期| 935-944| 共10页
作者
V. Sheremetyev; V. Brailovski; S. Prokoshkin; K. Inaekyan; S. Dubinskiy;
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作者单位

Department of Plastic Deformation of Special Alloys, National University of Science and Technology 'MISIS', 4 Leninskiy prosp., Moscow 119049, Russian Federation;

Department of Mechanical Engineering, Ecole de Technologie Superieure, 1100 Notre-Dame Street West, Montreal, QC, H3C 1K3, Canada;

Department of Plastic Deformation of Special Alloys, National University of Science and Technology 'MISIS', 4 Leninskiy prosp., Moscow 119049, Russian Federation;

Department of Mechanical Engineering, Ecole de Technologie Superieure, 1100 Notre-Dame Street West, Montreal, QC, H3C 1K3, Canada;

Department of Plastic Deformation of Special Alloys, National University of Science and Technology 'MISIS', 4 Leninskiy prosp., Moscow 119049, Russian Federation;

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正文语种 eng
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关键词
Biomaterials; Shape memory alloys; Superelasticity; Thermomechanical treatment; Fatigue;

机译：生物材料;形状记忆合金;超弹性;热机械处理;疲劳;

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1. Functional fatigue behavior of superelastic beta Ti-22Nb-6Zr(at%) alloy for load-bearing biomedical applications [J] . Sheremetyev V., Brailovski V., Prokoshkin S., Materials science & engineering, C. Materials for Biogical applications . 2016 ,第Null期

机译：超弹性βTi-22Nb-6Zr（at％）合金在承重生物医学应用中的功能疲劳行为
2. Assessment of a Superelastic Beta TiMo Alloy for Biomedical Applications [J] . M. H. Wu Advanced Materials & Processes . 2004 ,第1期

机译：用于生物医学的超弹性Beta TiMo合金的评估
3. Mechanical properties and bio-tribological behaviors of novel beta-Zr-type Zr-Al-Fe-Nb alloys for biomedical applications [J] . Nengbin Hua, Wenzhe Chen, Lei Zhang, Materials science & engineering . 2017 ,第Jula期

机译：用于生物医学的新型β-Zr型Zr-Al-Fe-Nb合金的力学性能和生物摩擦学行为
4. Fatigue properties of metastable beta Ti-22Nb-6Zr (at) alloy for load-bearing biomedicaS applications [C] . Vadim Sheremetyev, Sergey Prokoshkin, Sergey Dubinskiy International Conference on Shape Memory and Superelastic Technologies . 2015

机译：用于承载生物专业应用的稳定性βTI-22NB-6ZR（AT％）合金的疲劳性能
5. Density functional theory (DFT) study on the hydrolysis behavior of degradable Mg/Mg alloys for biomedical applications. [D] . Nezafati, Marjan. 2013

机译：用于生物医学应用的可降解Mg / Mg合金水解行为的密度泛函理论（DFT）研究。
6. The Electrochemical and Mechanical Behavior of Bulk and Porous Superelastic Ti‒Zr-Based Alloys for Biomedical Applications [O] . Yulia Zhukova, Anastasia Korobkova, Sergey Dubinskiy, 2019

机译：用于生物医学的块状和多孔超弹性Ti‒Zr基合金的电化学和机械行为
7. The Electrochemical and Mechanical Behavior of Bulk and Porous Superelastic Ti‒Zr-Based Alloys for Biomedical Applications [O] . Yulia Zhukova, Anastasia Korobkova, Sergey Dubinskiy, 2019

机译：散装和多孔超弹性Ti-Zr基合金的电化学和力学行为为生物医学应用

Functional fatigue behavior of superelastic beta Ti-22Nb-6Zr(at%) alloy for load-bearing biomedical applications

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