Oxidation behavior of CVI,MSI and CVI+MSI C/SiC composites 被引量：2

Oxidation behavior of CVI,MSI and CVI+MSI C/SiC composites

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摘要 The oxidation behavior of chemical vapor infiltration(CVI),molten silicon infiltration(MSI)and CVI+MSI C/SiC composites at 500-1 400℃was studied.The oxidation below 900℃increased successively for CVI,CVI+MSI and MSI composites.However,the oxidation of CVI composite above 1 000 ℃was much faster thanthat of MSI and CVI+MSI composites. As active carbon atoms produced by siliconization of fibers during MSI process were oxidized first and decreased initial oxidation temperature.The initial oxidation temperature of MSI,MSI+CVI and CVI composites was 526,552 and 710℃,respectively.New active carbon atoms were generated due to the breaking of 2D molecular chains during oxidation,so the activation energy of three C/SiC composites was decreased gradually at 500-800℃with oxidation process,exhibiting a self-catalytic characteristic. The oxidation behavior of chemical vapor infiltration（CVI）,molten silicon infiltration（MSI）and CVI＋MSI C/SiC composites at 500-1 400℃was studied.The oxidation below 900℃increased successively for CVI,CVI＋MSI and MSI composites.However,the oxidation of CVI composite above 1 000 ℃was much faster thanthat of MSI and CVI＋MSI composites. As active carbon atoms produced by siliconization of fibers during MSI process were oxidized first and decreased initial oxidation temperature.The initial oxidation temperature of MSI,MSI＋CVI and CVI composites was 526,552 and 710℃,respectively.New active carbon atoms were generated due to the breaking of 2D molecular chains during oxidation,so the activation energy of three C/SiC composites was decreased gradually at 500-800℃with oxidation process,exhibiting a self-catalytic characteristic.

作者闫志巧陈峰熊翔肖鹏张红波黄伯云

机构地区 Guangzhou Research Institute of Nonferrous Metals State Key Laboratory for Powder Metallurgy

出处《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2010年第4期590-596,共7页 中国有色金属学报（英文版）

基金 Project(2006CB600908)supported by the National Basic Research Program of China

关键词 chemical vapor infiltration(CVI) molten silicon infiltration(MSI) C/SiC composites OXIDATION chemical vapor infiltration （CVI） molten silicon infiltration （MSI） C/SiC composites oxidation

分类号 TB332 [一般工业技术—材料科学与工程]

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Transactions of Nonferrous Metals Society of China

2010年第4期

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