对磁性形状记忆材料作了简介。
近年来形状记忆材料的研究和应用受到研究人员的重视。
In recent years the research and application of shape memory materials become more and more important.
当作为形状记忆材料使用时,尤其适合于智能材料自动拆卸领域。
When being used as shape memory material, the interpenetrating polymer network is particularly suitable to the field of automatic intelligent material disassembly.
列举了近年来国内外形状记忆材料的应用实例,并对其发展前景作了分析。
An analysis has been made about the development future of shape memory alloy materials.
形状记忆材料是一种重要的智能材料,主要作为执行器件材料,被广泛的用在建筑、航空航天、军事和医学等领域。
Shape memory materials is important as intelligent materials, mainly used as actuator in Architecture, aeronautics, army and medical fields.
大部分形状记忆合金只能“循环”(或称改变形态)有限次数,之后材料就会疲劳了。
Most shape memory alloys can only "cycle" (or change form) a limited number of times before the material gives out.
他建议采用电动机或者有形状记忆功能的材料来反复击打软体契形翅膀的末端,让水产生向后的涟漪从而获得向前的推力。
He suggests using electric motors or shape-memory materials to repeatedly flick the end of a flexible, wedge-shaped wing, creating a wave that ripples backwards and generates forward thrust.
有机玻璃是一种具有形状记忆性的热塑性材料。
PMMA is one kind of hot plastic material with shape memory faculty.
形状记忆合金是新型功能材料。
形状记忆功能纺织品的开发是近年来在纺织材料学中研究较热门的新兴技术。
Development of shape memory functional textiles had been becoming a rising technology in textile materials in recent years.
介绍具有形状记忆智能和应答智能等智能高分子材料的作用原理并对其应用领域进行了探讨。
This paper describes polymer smart materials that has ability of shape memory and stimulation-response and their possible application.
最终加工材的力学性能和形状记忆性能与市售同类材料相当甚至更好。
The mechanical and shape memory properties of the materials finally processed can be compered with or even better than those of commercial materials of the same kinds.
本论文研究结果为形状记忆聚合物代替石膏作人体医疗固定材料在今后的大规模工业生产提供了良好的理论参考价值。
The results of this paper provide good reference to the application of medical fixing materials which made of shape memory polymers.
形状记忆合金作为一种典型的新型功能材料,已经在多个领域得到应用。
Shape Memory Alloy (SMA) has been applied in many fields as a typical new functional material.
形状记忆合金是一种新型的功能材料。
支架材料为国产形状记忆镍钛合金。
简单介绍了一种新型的热致变形材料一形状记忆合金的性能特点。
In this paper, the properties and characteristics of a new kind of heat induced deformed material, i. e. shape memory alloy, were presented.
本年的介绍内容包含:(1)磁形状记忆智能材料;
In this year it consists of (1)magnetic shape memory functionac material;
紧固件可以是由生物适应性材料,包括诸如形状记忆合金形成的缝合钉、金属圈、线圈、弹簧或钩子。
The fasteners may be staples, metal loops, coils, springs or hooks formed of biocompatible materials, including shape memory alloys such as NiTi.
介绍了该材料国内外的研究进展,对形状记忆合金类、形状记忆聚合物类和形状记忆水凝胶类功能纺织品进行了概述;
The latest development of these materials both at home and abroad was reviewed. Shape memory alloys, shape memory polymers and shape memory gels functional textiles had been summarized.
所用的硅胶是记忆性材料,无论你对其做了什么,都能回到原来的形状。
The silicone had a memory and would return to its original shape, no matter what you did.
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.
可通过控制交联引发剂用量或辐照剂量来制备性能优异的形状记忆高分子材料。
The shape memory polymers with excellent properties can be prepared by controlling the content of DCP or the dose of irradiation.
利用理论和数值方法研究了形状记忆合金增强复合材料的宏细观力学性;
The macro and micro mechanical behavior of smart composite materials reinforced by SMA was described by an analytical and numerical approach.
研究了利用形状记忆合金和液芯光纤对复合材料结构中的损伤进行自诊断、自修复的方法。
The method of self diagnosis and self repair for composite structure using shape memory alloy and adhesive liquid core optical fibers was studied.
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。
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.
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.
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.
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。
From the design of epoxy resin system, two-stage rigidization epoxy resin matrix with thermal induced shape memory property was prepared.
该泵从智能材料构造,被称为形状记忆合金,在变形之后记住它们的形状。
The pump is constructed from smart materials, called shape memory alloys, which remember their shape after being deformed.
应用推荐