The impact of bio-based polymeric materials.
的影响生物基聚合物材料。
Maleation finds wide applications in polymeric materials de-signing.
马来酸酐化在聚合物材料设计中有广泛的应用。
Application trend of polymeric materials for chemical sensors is outlined.
展现了聚合物在化学传感器中的应用前景。
Such polymeric materials can comprise units of other hydrophilic monomers.
所述聚合材料可以包含其它亲水单体的单元。
Shape retention is a factor in almost all articles made from polymeric materials.
形状保持性是所有聚合物材料制品共有的因素。
The surface modification of polymeric materials by plasma technique were discussed.
本文阐述了等离子体的发生及其引起材料表面改性的主要特点。
A set of method to determine the composition of polymeric materials is set up by using DSC.
建立了用DSC确定高分子材料组成的一套方法。
The research and application on the polymeric materials modified lignin become very active.
木质素改性高分子材料的基础研究和应用开发极为活跃。
In chemical and pharmaceutical fields, polymeric materials containing cholic acid can be used widely.
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。
Many different chemical reactions may be used to synthesize polymeric materials by step-growth polymerization.
许多不同的化学反应通过逐步聚合可用于合成聚合材料。
Palm fiber mattress and soft foam mattresses and other polymeric materials reference to the relevant standards.
棕纤维床垫和软质泡沫聚合材料床垫等要参照相关标准进行。
Block copolymers are a fascinating class of polymeric materials belonging to a big family knows as "soft materials".
嵌段共聚物是一类非常引人注目的高分子材料,它是我们所熟知的软物质大家庭的成员之一。
Structural parameters of the polymeric materials are also time dependent: aging , influence of temperature and strain.
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。
Protein medical Polymeric Materials was an important functional polymers. There were a lot of applications in biomedical field.
蛋白质类医用高分子是一类重要的功能高分子材料,在生物医学领域有着广泛的应用。
In order to reveal the detail structure of the polymeric materials, the selective etching treatment of the materials is necessary.
为了提高图象观察的质量和真实反映材料结构的细节必须使材料的结构细节充分暴露出来。
While the majority of biomedical research efforts to date has centered on utilizing well-known polymeric materials to a certain purpose.
当日期的多数生物医学的研究计画已经集中于对某种目的利用著名的聚合的材料时。
The permeability, solubility and diffusivity of tritium through metals, ceramics, glasses, elastomers and polymeric materials were studied.
研究了氚在金属材料、陶瓷材料、玻璃、弹性材料和聚合材料中的溶解度系数、扩散系数和渗透率;
The interesting useful mechanical properties which are uniquely associated with polymeric materials are a consequence of their high molecule weight.
高聚物材料的独特的,有趣的特性来源于他们巨大的分子质量。
Selective synthesis of 2, 6-dimethylnaphthalene (2, 6-dmn), a preferred intermediate of high performance polymeric materials, has been widely studied.
二甲基萘(2,6 -DMN)是合成高性能聚酯材料的重要中间体,具有广阔的应用前景。
The deep dielectric charging effect in polymeric materials is one of the most important factors threatening the satellite's life in space environment.
空间辐射环境下聚合物绝缘材料的深层充放电效应是威胁航天器安全的重要因素之一。
Starch-grafted acrylic acid is one of the most important naturally derived polymeric materials, and has wide applications in the environment protection and other fields.
中文摘要淀粉接枝丙烯酸是一类非常重要的天然高分子化合物的衍生材料,在环境保护及其他领域有着广泛的应用。
One example of such polymeric materials is side chain liquid crystalline polymers which are able to undergo a phase transition between an isotropic phase and a nematic phase.
这种聚合物材料的一个例子是侧链液晶聚合物,所述侧链液晶聚合物能够发生各向同性相与向列相之间的相转变。
The application of nanometer technologies in modification of polymeric materials, chromatographic packing catalyst carriers and daily chemical industry were briefly introduced.
简要介绍了纳米技术在高分子材料改性、色谱柱填料、催化剂载体和日用化工等领域中的应用;
Polymeric materials, with their various hierarchies of microstructure, may have metastable states present due to small phase size, composition, external fields and other causes.
具有多重微结构层次的聚合物体系可因小的相尺寸、组成、外场或其它因素而呈现亚稳态。
Compared to inorganic materials, polymeric materials have larger electro-optical response, lower dielectric constant, and higher damage threshold, and are easier to be processed.
与无机材料相比,聚全物材料具有较大的电光响应、高的破坏阚值和低的介电常数,并且容易加工成形。
This paper introduces the test methods which provide a quantitative or a qualitative procedure for determining resistance of antimicrobial synthetic polymeric materials to microorganisms.
介绍抗菌高分子材料抗菌性的定性与定量检验方法。
The surface modification of polymeric materials by plasma technique were discussed. The recent advances in the preparation of immobilized enzyme carriers by plasma technique were reviewed.
本文阐述了等离子体的发生及其引起材料表面改性的主要特点。就近年来,国内外运用等离子体技术制备固定化酶载体的方法及应用情况作了综述。
The surface modification of polymeric materials by plasma technique were discussed. The recent advances in the preparation of immobilized enzyme carriers by plasma technique were reviewed.
本文阐述了等离子体的发生及其引起材料表面改性的主要特点。就近年来,国内外运用等离子体技术制备固定化酶载体的方法及应用情况作了综述。
应用推荐