摘要聚氨酯是一种新型的有机高分子材料,因其具有优良的性能而被广泛应用。
Abstract : Polyurethane is a kind of promising organic polymer material with excellent properties which has been widely used in a number of areas.
其研究工作包括有机高分子材料、有机小分子材料和有机分子晶体材料的电学、光学等性质。
The electrical and optical properties of organic polymer, small molecular, molecular crystal semiconductors and so on have been studied.
为了改性具有芳烃基团的有机高分子材料,用苯甲酸改性碱性钙基膨润土制备了苯甲酸有机膨润土。
In order to modify aromatic polymer, benzoic acid-bentonite was synthesized by treating alkaline Ca-bentonite with Ben - zoic acid.
无机-有机高分子纳米复合材料综合了有机高分子材料易加工和无机纳米粉体高刚、高强及多种功能特性,发展前景广阔。
Inorganic-organic macromolecule nano composite has both the characteristics of organic macromolecule material's easy processing, inorganic nano powder's high rigidity, high strength and bright future.
被动式湿度调控方式已经得到广泛应用,目前主要有以下四种类型:硅胶类、无机盐类、无机矿物类、有机高分子材料类。
There are mainly four types:Silica gels, inorganic salts, inorganic minerals, organic polymers and so on. But they all have some shortages. Some of them have bad adsorption capacity.
简述了微波促进有机反应的机理和特点,并对近年来微波辐射技术在壳聚糖高分子材料中的应用进展作一综述。
In this paper, the principles and characters of microwave which assisted organic reactions were introduced. And the applications of microwave irradiation to chitosan polymer materials were reviewed.
在硝酸铵中添加相稳定剂或有机疏水物剂,或采取高分子材料包覆及膨化处理,可以使问题得到较好地解决。
The best measures to solve these problems are as follows: adding stabilizer or organic hydrophobing agent into ammonium nitrate, adopting macromolecular material for covering or expansion.
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.
笔者从化学利用的角度,论述了二氧化碳在无机化工、有机化工、高分子材料方面的资源利用和发展前景。
The chemical utilization of carbon dioxide in inorganic chemical, organic chemical and polymer materials, and its development prospect, were reviewed.
BPA是重要的有机化工原料,主要用于制造多种高分子材料。
BPA is an important organic chemical material, is mainly used to produce various high molecular materials.
苯乙烯是重要的有机化工原料,在高分子材料生产等方面具有非常广泛的应用价值。
As an important raw material in organic chemical engineering, Styrene has been of great practical value in many diversified fields such as the polymers production.
OIS经成型和干燥后即可方便地形成耐溶剂性的有机无机杂化高分子材料,如透明薄膜和高弹纤维。
The OIS, after molding and drying, gives easily transparent, solvent resistant membrane and high elastic fiber, those are actually the organic inorganic hybrid polymers.
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。
Inorganic or organic particulate materials are usually used with water-soluble natural or synthesized polymer materials.
射线辐射高分子材料表面接枝共聚合是一种绿色的、重要的有机生物材料合成制备方法。
Irradiation graft copolymerization becomes a green and important synthetic strategy for surface functionalization and facile preparation of new organic biomedical materials.
用有机硅高分子材料替代石油高分子材料,是探索实现低碳、循环经济的重要方法之一。
The use of silicone polymer material substitution of oil polymer material, is to explore a low-carbon, one important way of circular economy.
这些材料包括颗粒材料、水溶性改性天然高分子和水溶性合成高分子材料,无机或有机颗粒材料。
These materials include particulates, water-soluble modified natural polymer and water-soluble synthesized polymer, and inorganic or organic particulate materials.
光敏有机硅材料由于其优异的性能,在光敏高分子材料中占有非常重要的地位。
Photosensitive polysiloxane play a very important role in the field of photopolymerization materials for its excellent properties.
甲基丙烯酸甲酯(MMA)是生产有机玻璃的原料,广泛用于表面涂层、合成树脂、油漆涂料、胶粘剂工业和医用高分子材料工业。
Methyl methacrylate(MMA)is used as raw material for producing polymethacrylate, and it is also widely used in surface coating, synthetic resins, paint and coatings, adhesives and medical products.
开发有机硅合成革和有机硅合成纤维功能新材料,将对现代人类主要依赖石油高分子材料产生深远影响。
Development of synthetic leather, silicone and silicone synthetic function of new materials, will depend largely on modern humans have a profound impact oil polymer materials.
此后又发现了远红外线,多数含有水分的有机物质、高分子材料等在远红外区具有更多的吸收带。
The far-infrared tunnel dry kiln designed by this technique has the features of high efficiency, energy saving, environment protection, etc.
此后又发现了远红外线,多数含有水分的有机物质、高分子材料等在远红外区具有更多的吸收带。
The far-infrared tunnel dry kiln designed by this technique has the features of high efficiency, energy saving, environment protection, etc.
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