1) fine flake graphite
细鳞片石墨
1.
The process conditions and mechanism of preparing expand graphite by using cheap fine flake graphite as raw material was primarily studied in this paper.
本文主要研究了利用成本低廉的细鳞片石墨制备膨胀石墨的工艺条件及机理。
2) ultrafine graphite
微细鳞片石墨
1.
The dispersion behavior of ultrafine graphite in aqueous system was investigated by the sedimentation test.
采用沉降法研究了微细鳞片石墨在水介质中的分散行为,考察了12种药剂对微细鳞片石墨的分散效果,通过测试加入分散剂前、后颗粒表面Zeta电位、悬浮液粘度的变化及颗粒间相互作用能的计算,研究了分散剂的作用机理。
3) Ultrafine expanded graphite
超细鳞片石墨
4) flake graphite
鳞片石墨
1.
Study on the dispersion of flake graphite improved by Surfactant;
表面活性剂改善鳞片石墨分散性的研究
2.
Study of lithium intercalation into coated flake graphite;
包覆鳞片石墨嵌锂行为的研究
3.
C-SiC-B_4C composites were prepared with flake graphite C_(fg),SiC,B_4C and TiO_2 and the effects of sintering temperature on the microstructures and properties of C-SiC-B_4C composites were investigated.
利用鳞片石墨C_(fg)易在压力下滑动在陶瓷基体上形成C_(fg)条状组织的特性,实现了材料的显微组织设计。
5) scale graphite
鳞片石墨
1.
Research on the loss of big scales and a new flotation technology for scale graphite;
鳞片石墨大片损失规律及磨浮新工艺研究
2.
Research on the flotation technology of scale graphite;
小规模鳞片石墨矿浮选工艺研究
3.
Research on the improvement of regrinding technology of scale graphite;
鳞片石墨再磨工艺改进研究
6) squama graphite
鳞片石墨
1.
Influence of ash of squama graphite on synthesizing diamond by powder catalyst technology;
天然鳞片石墨灰分对粉末技术合成金刚石的影响
2.
The graphite conductive adhesives were respectively prepared with squama graphite, reductive graphite, squama graphite/aluminium powder as conductive medium.
分别以鳞片石墨、还原石墨、鳞片石墨/铝粉作导电介质制备石墨导电胶。
补充资料:鳞片状石墨
分子式:
CAS号:
性质:呈鳞片状、薄叶片状晶质的石墨,大小一般为(1.0~2.0)×(0.5~1.0)mm,最大4~5mm,片厚0.02~0.05mm。鳞片愈大,经济价值愈高。多呈浸染状、片麻状分布于岩石中。具有明显的定向排列。与层面方向一致。石墨含量一般为3%~10%,最高20%以上,常与古老变质岩(片岩、片麻岩)中石英,长石,透辉石等矿物共生,在火成岩与石灰岩接触带也可见到。鳞片状石墨具层状结构,其润滑性,柔韧性,耐热性和导电性能均比其他石墨好。主要用作制取高纯石墨制品的原料。
CAS号:
性质:呈鳞片状、薄叶片状晶质的石墨,大小一般为(1.0~2.0)×(0.5~1.0)mm,最大4~5mm,片厚0.02~0.05mm。鳞片愈大,经济价值愈高。多呈浸染状、片麻状分布于岩石中。具有明显的定向排列。与层面方向一致。石墨含量一般为3%~10%,最高20%以上,常与古老变质岩(片岩、片麻岩)中石英,长石,透辉石等矿物共生,在火成岩与石灰岩接触带也可见到。鳞片状石墨具层状结构,其润滑性,柔韧性,耐热性和导电性能均比其他石墨好。主要用作制取高纯石墨制品的原料。
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