from 01.01.2004 to 01.01.2024
Samara, Samara, Russian Federation
Samara, Samara, Russian Federation
The data of experimental studies on the production of ceramic material in the mode of solid-flame combustion in air from a mixture of Ti + C with the addition of 30% copper to the charge are presented. Gorenje The synthesized product was a porous framework formed of small and large rounded or polyhedral TiC particles. The copper phase was detected only between small polyhedral TiC particles.
SHS, silicon carbide, copper, ceramics, microstructure
1. Merzhanov A.G., Mukasyan A.S. Solid flame gorenje. – M.: TORUS PRESS, 2007. – 336 p.
2. Yunhong Liang, Zhiwu Han, Zhaohua Lin, Luquan Ren. Study on the reaction behavior of self-propagating high-temperature synthesis of TiC ceramic in the Cu-Ti-C system // Int. Journal of Refractory Metals and Hard Materials. Vol. 35 (2012).- pp. 221-227.
3. N. Frage, N. Froumin, M. Aizenshtein, L. Kutsenko, D. Fuks, M.P. Dariel. Reactive wetting in titanium carbide/non-reactive metal systems // Current Opinion in Solid State and Materials Science. Vol. 9 (2005).- pp. 189-195.
4. S. Rathod, O.P. Modi, B.K. Prasad, A. Chrysanthou, D. Vallauri, V.P. Deshmukh, A.K. Shah. Cast in situ Cu–TiC composites: Synthesis by SHS route and characterization // Materials Science and Engineering. Vol. 502 (2009).- pp. 91-98.
5. Haimin Ding, Qing Liu, Xianlong Wang, Xiaoliang Fan, Matthew Krzystyniak, Nicolas Glandut, Chong Li. Effects of boron addition on the microstructure and properties of in situ synthesis TiC reinforced Cu-Ti-C composites // Journal of Alloys and Compounds. Vol. 766 (2018).- pp. 66-73.
6. Y.H. Liang, H.Y. Wang, Y.F. Yang, Y.Y. Wang, Q.C. Jiang. Evolution process of the synthesis of TiC in the Cu–Ti–C system // Journal of Alloys and Compounds. Vol. 452 (2008).- pp. 298-303.
7. B. Cochepin, V. Gauthier , D. Vrel , S. Dubois. Crystal growth of TiC grains during SHS reactions // Journal of Crystal Growth. Vol. 304 (2007).- pp. 481-486.
