The results showed that Nitinol (superelasticity form) is the only material having all the characters we need.
实验结果发现只有镍钛合金超弹型一种材料符合要求。
The conception of shape memory factor is defined to describe the superelasticity and shape memory effect of shape memory alloys.
定义了一个能反映形状记忆合金超弹性和形状记忆效应的概念:形状记忆因子。
NiTi alloy provides superelasticity. We can use this property to make self-expanded stent, which takes on excellent biocompatibility and mechanical properties.
镍钛合金具有超弹性变形行为,利用这一特性制备的自膨胀支架具有优异的生物相容性和力学性能。
Superelasticity of shape memory alloys is one of the most important mechanical behavior, researches on superelasticity are the focus for application of shape memory alloys.
超弹性是形状记忆合金最重要的力学性能之一,对于超弹性的研究一直是形状记忆合金材料研究的热点。
A new internal variable, shape memory factor, was defined, it can describe the shape memory effect and superelasticity of shape memory alloy and possesses clear physical meaning.
定义了能够有效描述形状记忆合金的超弹性和形状记忆效应的新的内变量:形状记忆因子。
The results show that, different annealing temperature and holding time have different effects on the shape memory capability and superelasticity of the shape memory alloy wires.
结果表明:不同的退火温度和退火时间对试样的形状记忆性能以及超弹性具有不同程度的影响。
Methods and reliability of structural health monitoring utilizing the large strain and electric property of shape memory alloy's superelasticity were studied by low velocity impact test.
研究表明,以一定方式埋入结构的超弹性传感元件可较好地实现对结构冲击位置和程度等响应的监测。
Methods and reliability of structural health monitoring utilizing the large strain and electric property of shape memory alloy's superelasticity were studied by low velocity impact test.
研究表明,以一定方式埋入结构的超弹性传感元件可较好地实现对结构冲击位置和程度等响应的监测。
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