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首页> 外文期刊>Journal of the European Ceramic Society >Synthesis, characterization and sintering of Si-C-N nano-powders via sodium reduction in liquid ammonia
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Synthesis, characterization and sintering of Si-C-N nano-powders via sodium reduction in liquid ammonia

机译:通过减少液氨酸的Si-C-N纳米粉末的合成,表征和烧结

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AbstractSi-C-N nano-powders with tunable carbon content were synthesized through the reduction of silicon tetrachloride (SiCl4) and trichloromethylsilane (SiCl3CH3) solution by sodium in liquid ammonia. The nano-powders contain two domains of structure, Si-C-N amorphous or continuous random networks (CRNs), and free carbon. The carbon content in Si3+nCnN4CRNs,is tunable from n=0 to n=1. Free carbon will appeared with the increase of the C/Si mole ratio when C/Si is higher than 1/4. The crystallization of amorphous Si-C-N powders occurs at temperatures ranging from 1300°C to 1500°C depending on the carbon content. The additive-free dense Si-C-N ceramics with relatively low porosity were fabricated by Spark Plasma Sintering (SPS).]]>
机译:<![cdata [ 抽象 通过减少硅四氯化硅(SICL 4 )和三氯甲基硅烷(SICL 3 CH 3 )解决方案液氨钠。纳米粉末含有两个结构,Si-C-N非晶或连续随机网络(CRNS)和游离碳。 SI 3 + N C N N 4 CRNS 可从n = 0调谐到n = 1。当C / Si高于1/4时,通过C / Si摩尔比的增加将出现游离碳。无定形Si-C-N粉末的结晶根据碳含量在1300℃至1500℃的温度下发生。通过火花等离子体烧结(SPS)制造具有相对低孔隙率的无孔隙致密的Si-C-N陶瓷。 ]]>

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