Polyurethane (PU) with shape memory property was synthesized in this dissertation.
树脂基体提供形状记忆性能。
From the design of epoxy resin system, two-stage rigidization epoxy resin matrix with thermal induced shape memory property was prepared.
本文制备了可二阶段固化的形状记忆环氧树脂基体,研究了形状记忆环氧树脂及其复合材料的形状记忆特性和力学性能。
The results showed compared with PCL resin, PCL/ultrafine CaCO3 compound could not only keep the shape memory property unchanged, but also improve the rigidity of the compound efficiently.
研究结果表明,采用超细碳酸钙改性PCL,可以在保持PCL原有形状记忆性能基本不变的情况下,有效地提高复合材料的刚性。
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。
A new concept of linear recovery behavior in TiNi shape memory alloy (SMA) has been proposed, and its property index has been defined.
本文提出了形状记忆合金线性回复行为的新概念,并对线性回复性能指标进行了具体定义。
The result of experiment is shown that the third monomer can well improve the gel's property, and the three-unite gels exhibit the better character of shape memory.
实验结果表明,第三单体的引入很好改善了凝胶的脆性,使弹性模量得到进一步提高,凝胶表现出良好的形状记忆特性。
The study result is listed as follow: The transformation pseudo-elasticity property of shape memory alloys is simulated exactly with the above mentioned method of value calculation.
研究结果表明,文中所提的数值求解方法能够反映形状记忆合金相变伪弹性的基本特征;
Result: Material mechanics property of new device showed that the function of shape memory was very good, it could produce credible and stable restore strength under the body temperature.
结果:材料力学测试表明其形态记忆功能良好,体温状态下会产生稳定可靠的回复力。
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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