[1] Bickerdike R L, Brown A R G, Hughes G, et al. Proceedings of 5th conference on carbon. New York: Pergamon,1962.
[2] Jenkins W C. Method of depositing metals and metallic compounds throughout the pores of a porous body : US, 3160 517[P], 1964-12-08.
[3] Kotlensky W V. Deposition of pyrolytic carbon in porous solid. Chemistry and physics of carbon. New York:Dekker, 1973.
[4] Fitzer E, Hegen D, Strohmeier H. Chemical vapor deposition of silicon carbide and silicon nitride and its application for preparation of improved silicon ceramics//Sedgwick T O, Lydtin H . Proceedings of the 7th International Conference on Chemical Vapour Deposition. Pennington : Electrochemical Society,1979: 525-535.
[5] Christin F, Naslain R, Bernard C. A thermodynamic and experimental approach of silicon carbide CVD application to the CVD-infiltration of porous carbon composites//Sedgwick T O, Lyd tin H. Proceedings of the 7th International Conference on Chemical Vapour Deposition. Pennington: Electrochemical Society, 1979:499-514.
[6] Caputo A J, Lackey W J. Fabrication of fibre reinforced ceramic composites by chemical vapor infiltration. Ceram. Eng. Sci. Proc., 1984(5): 654-667.
[7] Fitzer E, Fritz W, Schoch G. The chemical vapor impregnation of porous solids. modeling of the CVI process. J. de. Physique IV, 1991(2): C-2-143-150.
[8] Besmann T M, Sheldon B W, Lowden R A, et al. Vapor-phase fabrication and properties of continuous -filament ceramic composites. Science, 1991,253:1104-1109.
[9] Golecki I. Rapid vapor-phase densification of refractory composites. Mater. Sci. Eng., 1997,20(2):37-124.
[10] Morgen P. Carbon fibres and their composites. London: Taylor & Francis, 2005:565.
[11] Snead L L, Jones R H, Kohyama A, et al. Statue of silicon carbide composites for fusion. J. Nucl. Mater., 1996,233-237: 26-36.
[12] Gupte S M, Tsamopoulos J A. Densification of porous materials by chemical vapor infiltration. J. Electrochem Soc., 1989,136(2):555-561.
[13] Rovillain D, Trinquecoste M, Bruneton E, et al. Film boiling chemical vapor in filtration: an experimental study on carbon/carbon composites materials. Carbon, 2001,39(9):1355-1365.
[14] Golecki I, Morris R C, Narasimhan D. Method of rapid densifying a porous structure: US , 5348774 [P]. 1994-9-20.
[15] Golecki I. Industrial carbon chemical vapor infiltration (CVI) processes//Delhaes P. Fibre and composites. London: Taylor & Francis, 2003:112-138.
[16] Tang Z H, Qu D N, Xiong J, et al. Effect of infiltration conditions on the densification behavior of carbon/carbon composites prepared by a directional-flow thermal gradient CVI process. Carbon,2003,41(14): 2703-2710.
[17] Tang S F, Deng J Y, Wang S J, et al. Fabrication and characterization of C/SiC composites with large thickness, high density and near-stoichiometric matrix by heaterless chemical vapor infiltration. Mater. Sci. Eng. A, 2007,465(1-2):290-294.
[18] Tang S F, Deng J J, Du H F, et al. Fabrication and microstructure of C/SiC composites using a novel heaterless chemical vapor infiltration technique. J. Am. Ceram. Soc., 2005,88(11):3253-3255.
[19] Sugiyama K, Nakamura T. Pulse CVI of porous carbon . J. Mater. Sci. Lett., 1987,6(3):331-333.
[20] Sugiyama K, Yamamoto E. Reinforcement and antioxidizing of porous carbon by pulse CVI of SiC. J. Mater. Sci., 1989,24(10):3756-3762.
[21] Naslain R, Pailler R, Bourrat X, et al. Synthesis of highly tailored cerami c matrix composites by pressure-pulsed CVI. Solid State Ion, 2001,(141-142):541-548.
[22] Lamouroux F, Bertrand S, Pailler R, et al. Oxidation resistant carbon fibre reinforced ceramic matrix composites . Composites Sci. Technol., 1999,59(7):1073-1085.
[23] Christin F A. A global approach to fibre nD architectures and self-sealing matrices: from research to production . Int. J. Appl. Ceram. Technol., 2005,2(2):97-104.
[24] Houdayer M, Spitz J, Tran-Van. Process for the densification of a porous structure: US , 4 472 454[P], 1984,09-18.