It is shown that, the simultaneous occurrence of unsteady physicochemical processes, as well as their velocity, do not allow for detailed description of the siliconization of porous carbon materials. Therefore, it is necessary to develop empirical models of the liquid silicon infiltration (LSI) process with the aim to verify existing theoretical dependencies of the every single stage of the process/
siliconized graphite, composite, structural material, graphite, silicon carbide
1. Tarabanov A. S., Kostikov V. I. Silicirovannyy grafit. - M.: Metallurgiya, 1977. - 208 s.
2. Eustathopoulos N., Nicholas M. G., Drevet B. Wettability at high temperatures / Ed. by R. W. Cahn. Pergamon, Amsterdam, New-York, 1999. - 429 r.
3. Eustathopoulos N. Fundamental issues of reactive wetting by liquid metals // J. Mater. Sci. - 2010. - Vol. 45, № 16. - P. 4256-4264.
4. Sobczak N., Singh M., Asthana R. High-temperature wettability measurements in metal/ceramic systems - Some methodological issues // Curr. Opin. Solid. St. - M. - 2005. - № 9. - P. 241-253.
5. Summ B. D., Goryunov Yu. V. Fiziko-himicheskie osnovy smachivaniya i rastekaniya. - M.: Himiya, 1976. - 232 s.
6. Elyutin V. P., Kostikov V. I., Maurah M. A. Kinetika rastekaniya titana po grafitu // Izv. VUZov. Chernaya metallurgiya. - M. - 1964. - № 11. - S. 5-10.
7. Seleznev A. N. Uglerodistoe syr'e dlya elektrodnoy promyshlennosti. - M.: Profizdat, 2000. - 256 s.
8. Dezellus O. Contribution a L’etude Des Mecanismes De Mouillage Reactif: PhD dissertation, Institut National Polytechnique De Grenoble. - France. - 2000. - 273 p.
9. Margiotta J. C., Zhang D., Nagle D. C. [et al.]. Formation of dense silicon carbide by liquid silicon infiltration of carbon with engineered structure // J. Mater. Res. - 2008. - Vol. 23, № 5. - P. 1237-1248.
10. Deryagin B. V. Opredelenie udel'noy poverhnosti poristyh tel po skorosti kapillyarnoy propitki // Kolloidnyy zhurnal. - 1946. - Tom VIII, № 1-2. - S. 27-30.
11. Einset E. Capillary infiltration rates into porous media with application to Silcomp processing // J. Am. Ceram. Soc. - 1996. - № 79. - R. 333-338.
12. Kumar S., Kumar A., Devi R. [et al.]. Capillary infiltration of liquids into 3D-stitched C-C preforms. Part B: kinetics of silicon infiltration // J Eur. Ceram. Soc. - 2009, № 29.- P. 2651-2657.
13. Gern F. H., Kochendörfer R. Liquid silicon infiltration: description of infiltration dynamics and silicon carbide formation // Composites Part A. - 1997. - № 28. - P. 355-364.
14. Gifja A., Tangstad M., Abel Engh T. Wettability of silicon with Refractory Materials // Report of Norw. Univ. of Sci. and Tech. - 2008. - 37 p.
15. Calderon N. R., Voytovych R., Narciso J. [et al.]. Pressureless infiltration versus wetting in AlSi/graphite system // J. Mater. Sci. - 2010. - № 45. - P. 4345-4350.
