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材料工程 2010

C/Si-C-N复合材料的制备及其氧化行为研究

, PP. 13-17

卢国锋,乔生儒,弓满锋,侯军涛,焦更生

Keywords: 复合材料,抗氧化性能,Si-C-N,裂纹,热膨胀系数

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Abstract:

采用CVI方法制备出了以Si-C-N陶瓷为基体以热解炭为界面的炭纤维增强陶瓷基复合材料(C/Si-C-N).采用热重法研究了C/Si-C-N复合材料在空气中的氧化行为,并探讨了基体制备温度对复合材料抗氧化性能的影响.研究表明不同温度下制备的复合材料,其氧化行为完全不同.高温下制备的C/Si-C-N复合材料其氧化失重随氧化温度的升高而持续增加;低温下制备的C/Si-C-N复合材料则其氧化失重先随温度的升高而增加,随后在800~1000℃之间随温度的升高而减小,接着又随温度的升高而增加.较高的制备温度可使复合材料在900℃以下温度区间的抗氧化性能得到提高,但却使900℃以上温度区间的抗氧化性能降低.

References

[1]	WARREN R.Ceramic Matrix Composites[M].London:Chapman & Hall,1992.
[2]	BACOS M P,DORVAUX J M,LAVIGNE O,etal.C/C composite oxidation model I.Morphological experimental investigations[J].Carbon,2000,38:77-92.
[3]	RAETHER F,MEINHARDT J,KIENZLE A.Oxidation behaviour of carbon short fibre reinforced C/SiC composites[J].Journal of the European Ceramic Society,2007,27:1217-1221.
[4]	LIEW L A,ZHANG W G,BRIGHT V M,etal.Fabrication of SiCN ceramic MEMS using injectable polymer-precursor technique[J].Sensors and Actuators,2001,A 89:64-70.
[5]	MATSUTANI T,ASANURMA T,LIU C,etal.Ion beam-induced chemical vapor deposition with hexamethyldisilane for hydrogenated amorpous silicon carbide and silicon carbonitride films[J].Surface and Coatings Technology,2003,169-170:624-627.
[6]	CHOLLON G.Oxidation behaviour of ceramic fibres from the Si-C-N-O system and related sub-systems[J].Journal of the European Ceramic Society,2000,20:1959-1974.
[7]	NIIHARRA K,IZAKI K,KAWAKAMI T.Hot-pressed Si3N4-32% SiC nanocomposite from amorphous Si-C-N powder with improved strength above 1200℃[J].Journal of Material Science Letter,1990,10:112-114.
[8]	BESSON J L,DOUCEY B,LUCAS S,etal.SiCN nanocoposite:creep behaviour[J].Journal of the European Ceramic Society,2001,21:959-968.
[9]	KLEPS I,CACCAVALE F,BRUSATIN G,etal.LPCVD silicon carbide and silicon carbonitride films using liquid single precursors[J].Vacuum,1995,46(8-10):979-981.
[10]	DROST H,FRIEDRICH M,MOHR R,etal.Nanoscaled Si-C-N-composite powders with different structures by shock-wave pyrolysis of organic precursors[J].Nucl Instrum Methods Phy Res B,1997,122:598-601.
[11]	BAHLOUL D,PEREIRA M,GOURSAT P.Silicon carbonitride derived from an organometallic precursor:influence of the microstructure on the oxidation behaviour[J].Ceramics International,1992,18:1-9.
[12]	BAHLOUL D,GOURSAT P,LAVEDRINE A.Influence of microstructural changes on the oxidation resistance of silicon carbonitrides derived from a polyvinylsilazane[J].Journal of the European Ceramic Society,1993,11:63 -68.
[13]	LAMOUROUX F,CAMUS G,THéBAULT J.Kinetics and mechanisms of oxidation of 2D woven C/SiC composites:I,experimental approach[J].J Am Ceram So,1994,77(8):2049-58.
[14]	GUO W M,XIAO H N,YASUDA E,etal.Oxidation kinetics and mechanisms of a 2D-C/C composite[J].Carbon,2006,44:3269-3276.
[15]	LAMOUROUX F,BOURRAT X,NASALAIN R.Structure/oxidation behavior relationship in the carbonaceous constituents of 2D-C/PyC/SiC composites[J].Carbon,1993,31(8):1273-1288.
[16]	CHENG L F,XU Y D,ZHANG L T,etal.Oxidation behavior of three dimensional C/SiC composites in air and combustion gas environments[J].Carbon,2000,38:2103-2108.

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