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1)  complex conductive fillers
复合导电填料
1.
The advantages and disadvantages of various complex conductive fillers are compared.
回顾了电磁屏蔽涂料用复合导电填料的现状和应用,并对比了各种类型复合导电填料的优缺点,重点阐述了复合碳纤维用作导电填料的优缺点及其应用。
2)  conductive filler dispersion com-pound process
导电填料分散复合法
3)  alumina cement/filler conductive composite
高铝水泥/填料导电复合材料
4)  conductive fillers
导电填料
1.
In this paper,three kinds of conductive adhesives were developed by using polyvinylidene fluoride(PVDF) as binding materials and carbon nanotubes(CNTS) graphite and carbon black acetylene as conductive fillers.
采用涂膜法制备了以碳纳米管(CNTS)、乙炔黑和石墨粉为导电填料的导电胶,研究了它们的电学性能、力学性能和粘结性能。
2.
The classification and properties of electromagnetic shielding conductive plastics are reviewed,with focus on properties of conductive fillers in compound conductive plastics.
论述了电磁屏蔽导电塑料的种类及其特性,重点介绍复合型导电塑料中导电填料的填充特性,并讨论了制备导电塑料的几种常用方法。
3.
The influences of dosage of conductive fillers on the conductivity of blend materials were dicussed,and mechanical properties of the blend materials relationship with dosage of cementitious.
本文介绍了材料的配制和性能,讨论了导电填料的含量与该材料导电性能之间的影响,以及水泥固体粉体含量与材料机械性能的关系。
5)  conductive filler
导电填料
1.
Effect of conductive filler on the properties of epoxy resin conductive adhesive;
导电填料对环氧导电胶性能的影响
2.
The conductive rubber in electromagnetic interference shielding in the country and abroad was introduced by the different conductive fillers,especially the advanced research across the globe was analyzed.
从导电填料的角度分类介绍了国内外学者对导电橡胶在电磁屏蔽方面的相关研究,尤其对当前国外水平较高的研究进行了总结,并指出了导电填料的发展趋势。
3.
By adding conductive filler to get compound coatings,we studied the influence of polyaniline in the compound coatings′ conductivity.
并分别以丙烯酸树脂和掺杂态PANI/丙烯酸树脂为成膜基质,添加导电填料,制备出复合导电涂膜。
6)  conducting material
导电填料
1.
Preparation of tint multiple conducting material by micro-latex technology;
利用微乳液技术制备浅色复合导电填料
补充资料:导电填料分散复合法
分子式:
CAS号:

性质:是制备复合型高分子材料的主要方法之一。其核心是采用各种混合方法使导电填料在绝缘性基体-高分子材料中均匀分布,构成以基体高分子材料为连续相,导电填料为分散相的复合导电材料。其导电机理有人认为是填充材料在基体中构成网状的连续导电通路,也有人认为是在导电微粒之间距离足够小时构成所谓导电“隧道”,其证据为在电子显微镜下绝大多数导电微粒并未接触,形成网络。这种方法的主要优点在于操作简便,可以采用多种常见的、价格低廉的材料,并能满足不同使用要求。是目前使用最为广泛的复合制备方法。

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