碳材料如石墨、碳纤维、碳泡沫和膨胀石墨,他们都具有高导热系数、低密度和良好的化学稳定性。
Carbon materials, including graphite, carbon fibre, carbon foam and expanded graphite possess the properties of high conductivity, low density and good chemical stability.
结果表明:缩短停留时间和高温处理使得构成纳米炭纤维催化生成的炭含量增加,碳层的结构接近石墨晶体的有序结构。
The result indicates that shortening of reaction time and graphitic treatment make catalytic carbon increasing and carbon layer incline to the order structure of graphitic crystalline.
介绍了焦炭、石墨、难石墨化碳及碳纤维、中间相微球等锂离子二次电池用碳负极材料的研究概况。
The cokes, graphites, nongraphitizable carbon, carbon fibers. mesocarbon. microbeads(MCMB)used as carbon anode materials for lithium ion secondary batteries ware presented.
本产品采用高碳石墨经化学处理,高温膨胀与玻璃纤维、金属丝、碳纤维等材料复合后经编织、整型而成。
The product is woven and carded from high carbon graphitetreated by chemical way and expanded in high temperature, glass fibre, metal silk, carbon fibre, etc.
利用碳纤维布和铜粉、钛粉、石墨粉等为原料,采用热压成型、烧结等工艺制备三维网状铜一碳复合受电弓滑板。
The three-dimensional network copper-carbon composite pantograph was obtained by hot pressing and sintering with carbon fiber, copper powder and titanium powder, and graphite powder as raw materials.
利用碳纤维布和铜粉、钛粉、石墨粉等为原料,采用热压成型、烧结等工艺制备三维网状铜一碳复合受电弓滑板。
The three-dimensional network copper-carbon composite pantograph was obtained by hot pressing and sintering with carbon fiber, copper powder and titanium powder, and graphite powder as raw materials.
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