微孔塑料是一种新型的高分子材料。
这一切复盖了一层高分子材料是纸。
综述了高分子材料抗静电性能的重要性;
The importance of antistatic properties of macromolecular materials was summarized.
然而,这种祖先高分子材料也许不是核酸。
However, such ancestral polymers may not have involved nucleotides.
详细研究了有关高分子材料的动态接触角。
The dynamics contact Angle of some polymer materials is studied.
当电流通过两个电极时高分子材料便会发光。
When a current is passed between these electrodes, the polymer gives off light.
并指出了导电高分子材料目前的研究趋势。
开展金属对高分子材料表面改性的初步研究。
Develop the original study about metal to macromolecule material surface transnature.
高压对高分子材料的结构与性能有较大的影响。
The structure and property of high molecular materials are effected by high pressure.
噻吩类聚合物是研究较为广泛的功能高分子材料。
Thiophene polymers is one of the most intensively investigated functional polymers.
高分子材料在光电子领域是一种必不可少的材料。
Polymer has been one of the essential materials in optoelectronics.
在化学和药学领域,含胆酸高分子材料具有重要的应用价值。
In chemical and pharmaceutical fields, polymeric materials containing cholic acid can be used widely.
聚苯胺(PANI)是研究最为广泛的导电高分子材料之一。
Polyaniline (PANI) is one of the most intensively researched conductive polymer materials.
随着高分子材料的应用日益广泛,其磨损现象越来越受到重视。
With the wider application of polymers, people pay more and more attention to their wear phenomena.
本文主要介绍药物控制释放的种类、机理、高分子材料及其应用。
In this article, the types, mechanisms, materials and applications of the controlled release of drug are discussed.
本文评述了凝胶电解质——一种新型功能高分子材料的研究进展。
The research developments of gel electrolyte, a kind of new functional polymer materials are reviewed.
研究导电高分子材料的电学、磁学和光学等方面的理论日显重要。
It is important that the theoretical study works of electricity, magnetics and optics for conducting polymer materials.
结构参数的高分子材料也有时间依赖性:衰老的影响,温度和应变。
Structural parameters of the polymeric materials are also time dependent: aging , influence of temperature and strain.
液晶高分子材料具有相当高的强度和模量,被誉为当代超级工程塑料。
Liquid crystalline polymer has the highest strength and modulus. Nowadays it is well known as super engineering plastics.
该方法可应用于高分子材料,无机与有机以及药物与食品科学等领域。
The way may apply in the fields of high polymer materials, inorganic, organic, medicine and foodstuff science.
本文讨论了复合型导电高分子材料的导电原理、开发现状和重要技术进展等。
For conductive polymer composite, the conductive theory, development situation, important progress of technology, etc. are discussed in this paper.
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.
天然高分子材料经过改性可加工成为人类急需的可生物降解的人工高分子材料。
Natural high polymer materials can be modified into artificial ones capable of biological degradation to meet the urgent need of mankind.
综述了在高分子材料表面固定生物分子以增强其生物医学应用性能的光化学方法。
This review summarizes several photochemical methods of immobilization biomolecules on polymer materials in order to enhance its biomedical performance.
主要综述了高分子材料老化机理及目前国内外各种高分子材料老化试验研究方法。
Some aging mechanism of polymer materials are discussed as well as several kinds of ways of aging testing for polymer materials.
将杯芳烃掺杂或键合于高分子材料中,可得到各种具有分子识别功能的高分子材料。
Functional materials with molecular recognition ability can be obtained by blending or bonding calixarenes into the polymer materials.
美国每年生产大约220万公吨的苯酚高分子材料,用于工业和商业领域,包括生产耐用塑料。
Phenol polymers are produced at an annual rate of 2.2 million metric tons per year in the United States for many industrial and commercial applications including durable plastics.
美国每年生产大约220万公吨的苯酚高分子材料,用于工业和商业领域,包括生产耐用塑料。
Phenol polymers are produced at an annual rate of 2.2 million metric tons per year in the United States for many industrial and commercial applications including durable plastics.
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