材料导报
材料導報
재료도보
MATERIALS REVIEW
2010年
7期
25-29
,共5页
谢志勇%黄启忠%张明瑜%苏哲安%陈建勋%谭瑞轩%李建清
謝誌勇%黃啟忠%張明瑜%囌哲安%陳建勛%譚瑞軒%李建清
사지용%황계충%장명유%소철안%진건훈%담서헌%리건청
化学气相渗透%热解炭%微观结构%工艺参数
化學氣相滲透%熱解炭%微觀結構%工藝參數
화학기상삼투%열해탄%미관결구%공예삼수
chemical vapor infiltration%pyrocarbon%microstructure%parameter
化学气相渗透(CVI)制备炭/炭复合材料涉及气体扩散和气相沉积2个过程,其工艺控制决定炭纤维坯体的增密速度、热解炭的结构和炭/炭材料的性能.工艺过程的控制主要有4类参数:第一参数包括沉积温度、系统压力、碳源浓度、碳源分压等,第二参数包括均相反应、异相反应和滞留时间等,第三参数为A_s/V_R,也就是沉积基体的表面面积与炉内气体的自由体积之比,以及目前以计算机模拟为主要手段的"第四参数"的研究.在固体表面沉积热解炭的科学研究已经持续了几十年,但至今为止还没有形成一种完善的表面沉积机理,分析了CVI工艺参数发展的趋势,说明了对热解炭微观结构形成机理的认识是一个不断深入的过程.
化學氣相滲透(CVI)製備炭/炭複閤材料涉及氣體擴散和氣相沉積2箇過程,其工藝控製決定炭纖維坯體的增密速度、熱解炭的結構和炭/炭材料的性能.工藝過程的控製主要有4類參數:第一參數包括沉積溫度、繫統壓力、碳源濃度、碳源分壓等,第二參數包括均相反應、異相反應和滯留時間等,第三參數為A_s/V_R,也就是沉積基體的錶麵麵積與爐內氣體的自由體積之比,以及目前以計算機模擬為主要手段的"第四參數"的研究.在固體錶麵沉積熱解炭的科學研究已經持續瞭幾十年,但至今為止還沒有形成一種完善的錶麵沉積機理,分析瞭CVI工藝參數髮展的趨勢,說明瞭對熱解炭微觀結構形成機理的認識是一箇不斷深入的過程.
화학기상삼투(CVI)제비탄/탄복합재료섭급기체확산화기상침적2개과정,기공예공제결정탄섬유배체적증밀속도、열해탄적결구화탄/탄재료적성능.공예과정적공제주요유4류삼수:제일삼수포괄침적온도、계통압력、탄원농도、탄원분압등,제이삼수포괄균상반응、이상반응화체류시간등,제삼삼수위A_s/V_R,야취시침적기체적표면면적여로내기체적자유체적지비,이급목전이계산궤모의위주요수단적"제사삼수"적연구.재고체표면침적열해탄적과학연구이경지속료궤십년,단지금위지환몰유형성일충완선적표면침적궤리,분석료CVI공예삼수발전적추세,설명료대열해탄미관결구형성궤리적인식시일개불단심입적과정.
Carbon/carbon composites are usually manufactured by chemical vapor infiltration (CVI) process consisting of the gas diffusion and deposition kinetics. Processes control is very important to affect the microstructure of pyrocarbon and the densification rate of carboneous performance. The types of progress parameter in preparation of pyrocarbon with chemical vapor infiltration are reviewed briefly. Four phases of development are recommended. The first parameter includes deposition temperature, furnace pressure, hydrocarbon gas concentration and hydrocarbon gas partial pressure,etc. The second parameter includes homogeneous reaction, heterogeneous reaction and residence time,etc. The third parameter is A_s/V_R, which is the ratio of surface area of deposition substrate to free volume of reaction gas in the furnace and 'the fourth parameter' which is being studied by numerical simulations of CVI processes. Carbon deposition from the gas phase on solid substrate has been an object of scientific research for several decades. The trend of development of progress parameter is analyzed. It shows that understanding the deposition mechanism of pyrolytic carbon is a long course.
