Effects of Phase Transformations on Fatigue Endurance of a Superelastic NiTi Alloy

机译：相变对超弹性Niti合金疲劳耐久性的影响

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It is well known that NiTi shape memory alloys exhibit superelasticity where a large elastic deformation proceeds under a constant stress due to the formation of stress-induced martensite. However, for most commercial NiTi alloys used in medical devices, the materials are processed in such a way that the H-phase transformation is apparently separated from the martensitic transformation. The B2 to R-phase change exhibits a much smaller shape change and a narrower hysteresis than does the B2 to B19' martensite transformation. Hence, the transformation temperatures as well as the thermomechanical properties associated with the R-phase are much more stable during cyclic deformation when compared to those associated with the B19'martensite. The crystallographic features for both martensitic and R-phase transformations are reviewed, and their effects on the tensile properties and rotating-beam fatigue endurance are studied in the present paper.

机译：众所周知，NITI形状记忆合金表现出超弹性，其中由于形成应力诱导的马氏体而在恒定应力下进行大的弹性变形。然而，对于医疗装置中使用的大多数商业NITI合金，以这样的方式处理材料，即H相转化显然与马氏体转化分离。 B2至R相变化表现出更小的形状变化和比B2至B19'马氏体转换更窄的滞后变化。因此，与与B19'martensite相关联的循环变形期间，转化温度以及与R相相关的热机械性质更稳定。综述了马氏体和R相变化的晶体特征，并在本文中研究了对拉伸性能和旋转束疲劳耐久性的影响。

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《Symposium on Fatigue and Fracture of Medical Metallic Materials and Devices》|2007年||共6页
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Ming H. Wu;
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中图分类医用一般科学;
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NiTi; B19'; martensite; R-phase; superelasticity; rotating-beam fatigue;

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1. Stress-induced phase transformations in thermally cycled superelastic NiTi alloys: in situ X-ray diffraction studies [J] . Polatidis Efthymios, Zotov Nikolay, Mittemeijer Eric J. Powder diffraction . 2015,第junasuppla1期

机译：热循环超弹性NiTi合金中的应力诱导相变：原位X射线衍射研究
2. Hard X-ray studies of stress-induced phase transformations of superelastic NiTi shape memory alloys under uniaxial load [J] . M. Hasan, W.W. Schmahl, K. Hackl, Materials Science and Engineering . 2008,第3期

机译：单轴载荷下超弹性NiTi形状记忆合金应力诱导相变的硬X射线研究
3. Effects of peak stress and stress amplitude on multiaxial transformation ratchetting and fatigue life of superelastic NiTi SMA micro-tubes: Experiments and life-prediction model [J] . Di Song, Guozheng Kang, Qianhua Kan, International Journal of Fatigue . 2017,第mara期

机译：峰值应力和应力振幅对超弹性NiTi SMA微管的多轴转变咬合和疲劳寿命的影响：实验和寿命预测模型
4. Effects of Phase Transformations on Fatigue Endurance of a Superelastic NiTi Alloy [C] . Ming H. Wu Symposium on Fatigue and Fracture of Medical Metallic Materials and Devices . 2007

机译：相变对超弹性Niti合金疲劳耐久性的影响
5. Ti-Nb-(Zr,Ta) superelastic alloys for medical implants: Thermomechanical processing, structure, phase transformations and functional properties. [D] . Dubinskiy, Sergey. 2013

机译：用于医疗植入物的Ti-Nb-（Zr，Ta）超弹性合金：热机械加工，结构，相变和功能特性。
6. Phase Transformation Twinning and Detwinning of NiTi Shape-Memory Alloy Subject to a Shock Wave Based on Molecular-Dynamics Simulation [O] . Man Wang, Shuyong Jiang, Yanqiu Zhang 2018

机译：基于分子动力学模拟的冲击波作用下NiTi形状记忆合金的相变孪生和孪生
7. Stress-induced phase transformations in thermally cycled superelastic NiTi alloys: In situ X-ray diffraction studies [O] . Polatidis E., Zotov N., Bischoff E., 2015

机译：热循环超弹性NiTi合金中的应力诱导相变：原位X射线衍射研究
8. Effects of Pulsed Dual-Ion Irradiation on Phase Transformations and Microstructure in Ti-Modified Austenitic Alloy [R] . Lee, E. H., Packan, N. H., Mansur, L. K. 1983

机译：脉冲双离子辐照对Ti改性奥氏体合金相变和组织的影响

Effects of Phase Transformations on Fatigue Endurance of a Superelastic NiTi Alloy

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