Biomedical polymer materials were widely used in biological and medical fields.
生物医用高分子材料被广泛应用于生物学、医学领域。
Polyaniline (PANI) is one of the most intensively researched conductive polymer materials.
聚苯胺(PANI)是研究最为广泛的导电高分子材料之一。
Study on powdered polymer materials is an important research subject of particulate technology.
高分子粉体材料的研究是粉体技术中一个重要组成部分。
The research developments of gel electrolyte, a kind of new functional polymer materials are reviewed.
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 study of polymer alloys is the most active domain in the polymer materials science and engineering.
高分子合金是高分子材料科学与工程中十分活跃的研究领域。
Conductive polymer materials can be used as wave absorption materials, anti-electrostatic materials, etc.
导电高聚物可用作雷达吸波材料、电磁屏蔽材料、抗静电材料等。
Traditional material consists of metallic materials, inorganic nonmetallic materials and polymer materials.
传统材料由金属材料、无机非金属材料和高分子材料组成。
According to current research foundation, make a forecast for the future research method of polymer materials.
并在现有的基础上,对高分子材料将来的研究进行了展望。
The way may apply in the fields of high polymer materials, inorganic, organic, medicine and foodstuff science.
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。
Light stabilizers are one of accessory ingredients which restrain photo-oxidative degradation of polymer materials.
光稳定剂是抑制或减缓由于光氧化作用而使高分子材料发生降解的助剂。
The main line of the course of functional polymer materials is the relationship between the structure and properties.
结构与性能之间的关系是贯穿功能高分子课程始末的主线。
Polylactide and its copolymers are polymer materials that can be degraded by organisms and have good biocompatibility.
聚乳酸及其共聚物是具有优良的生物相容性和可生物降解的高分子材料,无毒,可吸收。
It is important that the theoretical study works of electricity, magnetics and optics for conducting polymer materials.
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。
Inorganic or organic particulate materials are usually used with water-soluble natural or synthesized polymer materials.
无机或有机颗粒材料通常与水溶性天然或合成高分子材料复合应用。
As polymer materials are being used more and more widely, the demand on their surface property has also been on the rise.
聚合物材料的应用日益广泛,人们对聚合物材料的表面性能要求也越来越高。
Ag electroless deposited glass microsphere can be possibly used as conductive filler of high conductive polymer materials.
镀银玻璃微球有望用作高导电性聚合材料的导电填料。
Biodegradable polyesters are polymer materials, they can be synthesized by chemical methods, enzymatic-catalysis and ferment.
生物可降解聚酯是一种新型高分子聚合材料,可通过发酵、化学方法和酶催化来合成。
The results can provide the experimental and theoretical evidence for designing and processing the multiphase polymer materials.
这一仪器的研究结果能够为多相高分子材料提高性能提供可靠的实验依据和理论指导。
Some aging mechanism of polymer materials are discussed as well as several kinds of ways of aging testing for polymer materials.
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。
A general review for polymer materials of solid membrane has been given, meanwhile the applications of polymer membrane are mentioned.
膜材料是膜分离技术的关键。文章介绍了目前常用高分子固体膜材料及其应用。
Functional materials with molecular recognition ability can be obtained by blending or bonding calixarenes into the 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。
Natural high polymer materials can be modified into artificial ones capable of biological degradation to meet the urgent need of mankind.
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。
The software can be used not only for instruction demonstration in polymer physics course, but also for design and study of polymer materials.
该软件不仅可用于高分子物理课程的教学演示,也能够应用于高分子材料的设计和研究。
In recent years, more and more attentions were paid to the conductive polymer materials with the rapid development of the electron technology.
近年来,随着电子技术的迅猛发展,导电性高分子材料越来越引起人们的重视。
The result shown that the TMA technique is an effective and convenient method for characterising thermal shrinkage in oriented polymer materials.
实验结果表明,TMA是研究和测试取向聚合物材料热收缩的简便有效方法。
This review summarizes several photochemical methods of immobilization biomolecules on polymer materials in order to enhance its biomedical performance.
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。
The results show that polymer materials can decrease the HMX's burning rate, while bonding agents have little influence on the HMX's combustion property.
试验结果表明,聚合物材料将降低HMX的燃烧速度,而小分子键合剂对HMX燃烧性能的影响不大。
The results show that polymer materials can decrease the HMX's burning rate, while bonding agents have little influence on the HMX's combustion property.
试验结果表明,聚合物材料将降低HMX的燃烧速度,而小分子键合剂对HMX燃烧性能的影响不大。
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