1) graphite multi-wall carbon nanotubes
石墨化碳纳米管
1.
G-MWNT(graphite multi-wall carbon nanotubes)/Fe/ABS composite is prepared by the way of melt blending.
采用熔融共混法制备G-MWNT(石墨化碳纳米管)/Fe/ABS新型屏蔽复合材料,研究材料的综合性能及其机理,初步探讨了该材料微观结构与性能之间的关系。
2) carbon nanotubes modified graphite electrode
碳纳米管修饰石墨电极
1.
Determination of chlorphenamine maleate by carbon nanotubes modified graphite electrode
利用碳纳米管修饰石墨电极测定马来酸氯苯那敏
3) nano-scale tube
纳米石墨管
1.
A Monte Carlo simulation was performed to investigate the thermodynamic propertiesof argon in nano-scale tubes constructed by graphite.
本文采用MonteCarlo方法研究了纳米石墨管中流体氩的热力学性质。
4) CNT-Ag-G composite
碳纳米管-银-石墨复合材料
1.
Effect of circular velocity on the contact voltage drop of CNT-Ag-G composite;
圆周速度对碳纳米管-银-石墨复合材料接触电压降的影响
2.
CNT-Ag-G composite brushes were fabricated by means of powder metallurgy.
采用粉末冶金法制备碳纳米管-银-石墨复合材料电接触材料,在带电状态下(10A/cm2),研究了压力对碳纳米管-银-石墨复合材料接触电压降的影响,结果表明:当压力较小时(10N/cm2,5N/cm2),由于电刷的跳动产生火花,导致复合材料接触电压降较大;随压力增加,复合材料电刷和换向器的实际接触面积增大,接触电阻减小,电刷的接触电压降下降;由于碳纳米管的研磨作用,阻止了润滑膜随磨损时间延长而增厚,使电刷的接触电压降维持在一个较稳定的数值上。
5) CNTs-Ag-G composite
碳纳米管-银-石墨复合材料
1.
Effect of pressure on electrical wear of CNTs-Ag-G composites;
外加载荷对碳纳米管-银-石墨复合材料电磨损性能的影响
2.
CNTs-Ag-G composite brushes were fabricated by means of powder metallurgy method.
采用粉末冶金方法制备碳纳米管-银-石墨复合材料,研究了电流密度对碳纳米管-银-石墨复合材料的接触电压降及其磨损性能的影响。
3.
The friction and wear behavior of the CNTs-Ag-G composite sliding against a copper alloy in the presence of electric current was evaluated and compared with that in the absence of the external electric field using a ring-on-block friction and wear tester.
采用粉末冶金方法制备了碳纳米管-银-石墨复合材料,研究了复合材料在机械磨损和带电磨损2种状态下的摩擦磨损性能及接触电压降的变化情况。
6) CNTs/Ag/G composite
碳纳米管/银/石墨复合材料
1.
CNTs/Ag/G composites were prepared by means of powder metallurgical method and the electrical contact properties were examined.
采用粉末冶金法制备碳纳米管/银/石墨复合材料(CNTs/Ag/G),研究了碳纳米管增强银/石墨复合材料的电接触性能。
补充资料:管状定向碳纳米管
纳米本意是一种长度单位,纳米材料是指材料的尺寸处于1~100nm范围内的金属,金属化合物,无机物或高分子的颗粒,对纳米材料的研究和开发依赖于能看清原子或分子世界的仪器,1993年12月中国科学院庞世瑾教授在硅表面搬走了原子,写下了"中国"的字样,人类按需要排布一个个原子的技术成为现实,前不久,我国科学家成功合成了3nm长的管状定向碳纳米管,长度居世界之首,这种碳纤维具有强度高,刚度(抵抗变形的能力)高,密度小,熔点高,化学稳定性好的特点.
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