On the temperature dependence of the superelastic strength and the prediction of the theoretical uniaxial transformation strain in Nitinol

McKelvey AL.; Ritchie RO.

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On the temperature dependence of the superelastic strength and the prediction of the theoretical uniaxial transformation strain in Nitinol

机译：镍钛诺中超弹性强度的温度依赖性及理论单轴转变应变的预测

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This paper describes an alternative method for applying the Clausius-Clapeyron equation in a study of the effect of temperature on the superelastic stress in the shape memory alloy Nitinol-a candidate material for many medical devices, including, ill particular, endovascular stents. This new analysis will provide some clarification on the controversy regarding estimation of the thermodynamic equilibrium temperature. The theoretical uniaxial transformation strain has been calculated by means of the Clausius-Clapeyron equation. The calculated value of strain, 5.0%, corresponded closely to the experimentally measured value of 4.7%. [References: 20]

机译：本文介绍了一种在温度对形状记忆合金镍钛诺（一种可用于许多医疗设备，尤其是血管内支架）的候选材料中的超弹性应力的影响研究中应用克劳修斯-克拉佩隆方程的替代方法。这项新的分析将为有关热力学平衡温度估算的争议提供一些澄清。理论上的单轴转变应变已经通过克劳修斯-克拉珀龙方程进行了计算。应变的计算值为5.0％，与实验测量值4.7％相对应。 [参考：20]

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《Philosophical Magazine, A. Physics of condensed matter, defects and mechanical properties》 |2000年第8期|共10页
作者
McKelvey AL.; Ritchie RO.;
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正文语种 eng
中图分类物理学;
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Alloys;

机译：合金类;

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1. On the temperature dependence of the superelastic strength and the prediction of the theoretical uniaxial transformation strain in Nitinol [J] . McKelvey AL., Ritchie RO. Philosophical Magazine, A. Physics of condensed matter, defects and mechanical properties . 2000,第8期

机译：镍钛诺中超弹性强度的温度依赖性及理论单轴转变应变的预测
2. Modeling evolutions of plastic strain, maximum transformation strain and transformation temperatures in SMA under superelastic cycling [J] . Xiaoyong Zhang, Xiaojun Yan, Huimin Xie, Computational Materials Science . 2014,第Null期

机译：在超弹性循环下模拟SMA中塑性应变，最大转变应变和转变温度的演变
3. An equivalent strain/Coffin-Manson approach to multiaxial fatigue and life prediction in superelastic Nitinol medical devices. [J] . Runciman A, Xu D, Pelton AR, Biomaterials . 2011,第22期

机译：超弹性镍钛诺医疗设备中多轴疲劳和寿命预测的等效应变/科夫曼森方法。
4. Design of an ultra thin strain sensor using superelastic nitinol for applications in minimally invasive surgery [C] . Amit Srivastava, Ran Xu, Abelardo Escoto, IEEE International Conference on Advanced Intelligent Mechatronics . 2016

机译：使用超弹性镍钛合金的超薄应变传感器设计，用于微创手术
5. Prediction of low and high cycle multiaxial fatigue of superelastic nitinol stents via uniaxial fatigue based equations. [D] . Roy, Alexander M. 2013

机译：通过基于单轴疲劳的方程式预测超弹性镍钛合金支架的低和高循环多轴疲劳。
6. Stress-strain data for aluminum 6061-T651 from 9 lots at 6 temperatures under uniaxial and plane strain tension [O] . B.S. Aakash, JohnPatrick Connors, Michael D. Shields 2019

机译：单轴和平面应变拉力下6个温度下来自9个批次的铝6061-T651的应力应变数据
7. Hard X-ray studies of stress-induced phase transformations of superelastic NiTi shape memory alloys under uniaxial load [O] . Hasan, M., Schmahl, W. W., Hackl, K., 2008

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
8. Theoretical analysis of the effect of uniaxial elastic strain on the critical temperature of cuprate superconductors [R] . Welch, D. O., Baetzold, R. C. 1992

机译：单轴弹性应变对铜酸盐超导体临界温度影响的理论分析

On the temperature dependence of the superelastic strength and the prediction of the theoretical uniaxial transformation strain in Nitinol

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