1) hollow inorganic bead
中空无机微珠
1.
Study on flowability of the hollow inorganic bead-filled PP composites;
中空无机微珠填充PP复合材料的流动性能
3) hollow glass bead
中空玻璃微珠
1.
Effect of hollow glass bead and the others in thermal insulation elastic coatings;
中空玻璃微珠等填料在弹性隔热涂料中的性能研究
2.
Study on the Preparation and Properties of EVA/Hollow Glass Beads Filled Heat-insulation Composites
EVA/中空玻璃微珠隔热复合材料的制备与性能研究
3.
The particle size-accumulative frequency distribution of 6 kinds of hollow glass bead was measured in order to investigate the relationship between the voidage and the fractal character of particle size distribution of hollow glass bead.
为研究中空玻璃微珠粒度分布分形特征与空隙率的关系,测量了6种中空玻璃微珠的粒度累积分布,用统计学概念与分形理论分别考察了中空玻璃微珠的粒度分布法则及其分形特征。
4) hollow glass beads
中空玻璃微珠
1.
Polypropylene (PP) was filled by hollow glass beads (HGB) with different size to make composites.
采用不同粒径的中空玻璃微珠(HGB)填充聚丙烯(PP)。
2.
The paper dealt with the epoxy composite with the properties of high strength and low condensity, which were prepared with epoxy resin, hollow glass beads, coupling agent, curing agent,plastizer and other additives.
讨论了用发电厂固体废料中的中空玻璃微珠填充E-44环氧树脂制备轻质复合材料。
5) Hollow glass spheres(HGS)
中空玻璃微珠(HGS)
6) fly ash cenospheres
空心微珠
1.
Electroless plating Co-P alloy on the surface of fly ash cenospheres;
空心微珠表面化学沉积Co-P合金研究
2.
Nanocomposite microwave absorbing coatings were prepared by using prepared Ni-Co-P/CNT and Ni-Co-P/fly ash cenospheres composite powders as absorbers,choosing epoxy resin as film forming resin and adding some proper solvent,curing agent and auxiliary agents.
以Ni-Co-P/CNT复合粉体和Ni-Co-P/空心微珠复合粉体作为吸收剂,选用高分子聚合物环氧树脂作为成膜树脂,同时加入适当的溶剂、固化剂和助剂制备出纳米复合微波吸收涂料,并将涂料涂刷于塑料薄板上制备出涂层样品。
补充资料:中空微球增强体
分子式:
CAS号:
性质:为球状空心低密度,粒度可控制的一种增强或填料。有无机空心球和有机空心球之分。空心微球的直径范围从10~30μm,壁厚为1~4μm。其密度取决于球的大小和壁厚。空心微球主要作为热固性与热塑性高聚物的增强体或填料,也可作为并可用空心微球制造由微球组合的泡沫材料。
CAS号:
性质:为球状空心低密度,粒度可控制的一种增强或填料。有无机空心球和有机空心球之分。空心微球的直径范围从10~30μm,壁厚为1~4μm。其密度取决于球的大小和壁厚。空心微球主要作为热固性与热塑性高聚物的增强体或填料,也可作为并可用空心微球制造由微球组合的泡沫材料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条