采取不同的相变模式产生不同的切变应变,合金获得不同的形状记忆效应。
The different transformation model can produce different shear strain, so they show different shape memory effect.
当预变形量相同时,含0.12%碳的合金的形状记忆效应低于超低碳合金。
The shape memory effect of the alloy with 0.12% carbon was lower than the alloy with ultra-low carbon.
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。
The conception of shape memory factor is defined to describe the superelasticity and shape memory effect of shape memory alloys.
镍钛形状记忆合金具有形状记忆效应和超弹性,在介入治疗上得到广泛的运用。
Possessing peculiar shape memory effect and hyperelasticity, NiTi shape memory alloy (NiTi SMA) have wildly applications in Intervention Treatment.
镍钛形状记忆合金棒是一种具有形状记忆效应、强度高及组织相容性好的新型矫形材料。
Shape memory stick of nickel-titanium alloy is a new kind of orthopedic material which has the effect of shape memory, high strength and gets along well with body tissues.
结果表明,通过调整PLLGA共聚物的组成,可获得良好的力学性能和形状记忆效应。
The results showed that good mechanical and shape memory properties can be observed through changes of PLLGA compositions.
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。
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.
正是这两方面的原因导致变形后时效对合金形状记忆效应的提高比不变形直接时效的高得多。
It was the above two reasons that make the improvement in shape memory effect through aging after deformation much more remarkable than through aging free deformation.
研究结果表明,该合金经特殊训练方法能够获得大于6%的形状记忆效应并具有较好的蠕变抗力。
The results show that this alloy has a shape memory effect more than 6% after a special training, the creep and the stress relaxation hardly decrease shape memory effect of the alloy.
形状记忆合金由于其优良的形状记忆效应、相变伪弹性和高阻尼特性一直是最值得研究的功能材料之一。
Shape memory alloy (SMA) has been one of functional materials deserved to studying due to its outstanding shape memory effect, pseudo-elasticity and high damping capacity.
形状记忆合金利用应力诱发马氏体相变或温度诱发马氏体相变实现形状记忆效应,是一种新兴的功能材料。
Shape memory effect of alloy is obtained by making use of martensitic phase transformation induced by stress or temperature. Shape memory alloy is a new kind of function materials.
马氏体的正、逆相变遵循完全相同的路径,上述这些特点正是该合金具有良好的形状记忆效应以及窄的相变温度滞后的原因。
All of above mentioned microstructure features are the reason for good shape memory effect and a narrow temperatures hysteresis of phase transformation in TiNiCu alloy.
结果表明任务类型和刺激材料均具有主效应,结论:记忆形状这一维度具有不同视觉特征的客体时,主要采用语音编码;
Experiment result found stimulate material has the primary effect, stimulus materials with easily named objects was significantly higher than the stimulus materials with not easily named.
方法利用镍钛合金的记忆效应和尺、桡骨干的解剖特征,研制具有三维固定作用并能纵向记忆加压于骨断端的尺桡骨形状记忆接骨器。
Methods We designed a kind of radius-ulna shape memory connector on the basis of the shape memory property of nitinol alloy and the anatomic characteristics of radial and ulnar diaphyses .
方法利用镍钛合金的记忆效应和尺、桡骨干的解剖特征,研制具有三维固定作用并能纵向记忆加压于骨断端的尺桡骨形状记忆接骨器。
Methods We designed a kind of radius-ulna shape memory connector on the basis of the shape memory property of nitinol alloy and the anatomic characteristics of radial and ulnar diaphyses .
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