粉末冶金材料科学与工程
粉末冶金材料科學與工程
분말야금재료과학여공정
POWDER METALLURGY MATERIALS SCIENCE AND ENGINEERING
2013年
3期
353-356
,共4页
逯雨海%肖鹏%李专%曾志伟
逯雨海%肖鵬%李專%曾誌偉
록우해%초붕%리전%증지위
C/C-SiC-Cu5Si%复合材料%微观结构%反应熔体渗透法
C/C-SiC-Cu5Si%複閤材料%微觀結構%反應鎔體滲透法
C/C-SiC-Cu5Si%복합재료%미관결구%반응용체삼투법
C/C-SiC-Cu5Si%composites%microstructure%RMI
以全网胎针刺整体毡为预制体,采用化学气相渗透法增密制备 C/C 多孔坯体。采用反应熔体渗透法,将Si 粉,Ti 粉和 Cu 粉均匀混合,在1400~1700℃下制备 C/C-SiC-Cu5Si 复合材料。利用 X 射线衍射分析该复合材料的物相组成,用扫描电镜分析其显微形貌。结果表明:C/C-SiC-Cu5Si 复合材料由炭纤维,热解炭,β-SiC,TiC和 Cu5Si 相组成;生成的 TiC 相主要分布在热解炭周围,Cu5Si 分布在 TiC 周围,而β-SiC 弥散分布在 Cu5Si 基体中;TiC 晶粒的形成是 Ti 原子向 C 原子扩散的结果,其长大受 Ti 原子扩散控制。
以全網胎針刺整體氈為預製體,採用化學氣相滲透法增密製備 C/C 多孔坯體。採用反應鎔體滲透法,將Si 粉,Ti 粉和 Cu 粉均勻混閤,在1400~1700℃下製備 C/C-SiC-Cu5Si 複閤材料。利用 X 射線衍射分析該複閤材料的物相組成,用掃描電鏡分析其顯微形貌。結果錶明:C/C-SiC-Cu5Si 複閤材料由炭纖維,熱解炭,β-SiC,TiC和 Cu5Si 相組成;生成的 TiC 相主要分佈在熱解炭週圍,Cu5Si 分佈在 TiC 週圍,而β-SiC 瀰散分佈在 Cu5Si 基體中;TiC 晶粒的形成是 Ti 原子嚮 C 原子擴散的結果,其長大受 Ti 原子擴散控製。
이전망태침자정체전위예제체,채용화학기상삼투법증밀제비 C/C 다공배체。채용반응용체삼투법,장Si 분,Ti 분화 Cu 분균균혼합,재1400~1700℃하제비 C/C-SiC-Cu5Si 복합재료。이용 X 사선연사분석해복합재료적물상조성,용소묘전경분석기현미형모。결과표명:C/C-SiC-Cu5Si 복합재료유탄섬유,열해탄,β-SiC,TiC화 Cu5Si 상조성;생성적 TiC 상주요분포재열해탄주위,Cu5Si 분포재 TiC 주위,이β-SiC 미산분포재 Cu5Si 기체중;TiC 정립적형성시 Ti 원자향 C 원자확산적결과,기장대수 Ti 원자확산공제。
Carbon fiber reinforced carbon matrix composites were fabricated by chemical vapor infiltration (CVI) using short-cut fabric as preform. C/C-SiC-Cu5Si composites were fabricated at 1 400~1 700 ℃ by reactive melt infiltration (RMI) using the mixture of silicon powders, titanium powders and copper powders as molten materials. The phase composition and microstructure of C/C-SiC-Cu5Si composites were analyzed by XRD and SEM, respectively. The results show that, C/C-SiC-Cu5Si composites are composed of carbon fiber, pyrocarbon, β-SiC, TiC and Cu5Si; pyrocarbon is surrounded by TiC which is next to Cu5Si, whereas β-SiC is distributed uniformly in Cu5Si matrix; the formation of TiC crystalline grain is attributed to diffusion of Ti atoms to C, and its growth is dominated by diffusion of Ti atoms.
