Basic models are treated across traditional disciplines, not only in the discussion of methods but also in chapters on crystal defects, microstructure, fluids, polymers and soft matter.
基本模型是跨越传统学科的治疗,不仅在方法上的讨论,而且在晶体缺陷,微观结构,流体,聚合物和软物质的章节。
The research on transition metal coordination polymers not only connects inorganic and organic chemistry but also involves basic theory and applications.
过渡金属配位聚合物的研究,不仅沟通了无机与有机化学的研究,而且集基础研究与应用研究于一体。
Resolve inside to the high polymers membrane permeation separation oil the basic principle of the gas proceeded the thorough analysis.
对高分子聚合膜渗透分离油中溶解气体的基本原理进行了深入分析。
Biocompatibility is the basic requirement for polymers used as medical device in clinic, and it's a crucial pathway changing surface chemical composition to improve the biocompatibility of polymers.
生物相容性是高分子材料在临床上用作医用装置的基本要求,改变高分子材料的表面化学组成是提高其生物相容性的重要途径。
The basic principles of spray droplets formation, their impaction and adhesion are described with particular emphasis on the effect of surfactants and polymers.
对于喷雾液滴的形成,以及他们之间的相互碰撞,黏合的基本原理,以表面活性剂和聚合物带来的影响作为重点加以描述。
Introduce the basic requirements of biomedical smart polymers, the response process and their applications of smart polymers in biomedical fields, and their recent development.
掌握生物医用智能高分子材料的条件要求,智能化过程,以及主要应用。了解智能生物医用高分子材料的研究现状。
On the basic of it, fluoride polymers were applied to spin, leather, dope and so on.
基于这点,含氟丙烯酸聚合物被广泛应用于纺织、皮革、涂料、包装等领域。
The purpose of this article is to review basic principle of NLO optics and recent development of NLO polymers, focusing most heavily upon the research activities related to the author and coworker.
主要介绍有关高分子非线性光学材料的基本概念、二阶非线性光学高分子的种类和制备方法、作者和合作者近年来在聚合物非线性光学材料研究领域所做的工作。
The structure of plastic polymers, there are two basic types: the first is linear structure, with the structure of the polymer is called linear polymers;
塑料高分子的结构基本有两种类型:第一种是线型结构,具有这种结构的高分子化合物称为线型高分子化合物;
Branching polymer chains, copolymerizing with another monomer, and blending branched or cross-linked polymers are the basic methods to increase its viscosity so that it can be suitable for foaming.
高分子链的支化,与另一种共聚物接枝,或共混支化聚合物和线性聚合物是增加其粘度的基本方法,以使其能够发泡。
Branching polymer chains, copolymerizing with another monomer, and blending branched or cross-linked polymers are the basic methods to increase its viscosity so that it can be suitable for foaming.
高分子链的支化,与另一种共聚物接枝,或共混支化聚合物和线性聚合物是增加其粘度的基本方法,以使其能够发泡。
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