Indexing
All Issues
Submission
Author Guidelines
Reviewers
Editorial Members
Publication Fee
Vol.1 , No. 4, Publication Date: Dec. 11, 2015, Page: 123-127
 of titanium disilicide are considered. It has been established that the course of exothermic reaction of the silicon-titanium system is determined by the process initiation temperature, the initial nanoscale of powder particles and titanium-to-silicon mass ratio.&picture=http://www.aascit.org/aascit/decorators/img/journal/974.jpg)
| [1] | A. S. Strogova, Belarusian State University of Informatics and Radioelectronics, Minsk, Republic of Belarus. |
| [2] | А. A. Kovalevskii, Belarusian State University of Informatics and Radioelectronics, Minsk, Republic of Belarus. |
| [3] | O. M. Komar, Belarusian State University of Informatics and Radioelectronics, Minsk, Republic of Belarus. |
Chemical reactions and mechanisms of structure formation in the high-temperature synthesis (SHS) of titanium disilicide are considered. It has been established that the course of exothermic reaction of the silicon-titanium system is determined by the process initiation temperature, the initial nanoscale of powder particles and titanium-to-silicon mass ratio.
Keywords
Titanium Disilicide, High-Temperature Synthesis, Nanostructured Materials
Reference
| [01] | Merzhanov А.G. Process of combustion and synthesis of materials. Chernogolovka: ISMAN. 1998. P.512. |
| [02] | Mukasyan A.S. In: Combustion Synthesis of Silicon Carbide. N.Y.: InTech, 2011. P.389–409. |
| [03] | Moskovskih D.O., Mukasyan A.S., Rogachev A.S. Self-propagating high-temperature synthesis of nanopowders of silicon carbide. Doklady Akademii nauk Rossii. 2013. V.499. N2. P.176–179. |
| [04] | Thermodynamic constants of substances. Handbook edited by V.P. Glushko.- M.: Nauka. 1965–1971. Vol. 1–5. |
| [05] | Mel,nik B.L. Engineering handbook about Technology of Inorganic substance.-М: Himiya. 1975. P. 544. |
| [06] | C.Vahlas, P.Y. Chevalier, E. Blanquet. A Thermodinamic evalution of four Si-M (M=Mo, Ta, Ti, W) binary systems // CALPHAD, 13 (1989), № 3, P.273-292 |
| [07] | Kovalevskii A.A., Vlasukova L.A., Strogova A.S. et al. Nanosized titanium disilicide. Synthesis, structure, properties (part 1) // Nano- i mikrosistemnaya tekhnika. 2012. N5. P.15–21. |
| [08] | Kovalevskii A.A., Vlasukova L.A., Strogova A.S. et al. Nanosized titanium disilicide. Synthesis, structure, properties (part 2) // Nano- i mikrosistemnaya tekhnika. 2012. N6. P.6–11. |
| [09] | Kovalevskii А. А, Strogova A.S., Tsybul'skii V.V. et al. Nanostructured solid solution TiSi2 as a photocatalyst decomposition of water// Nano- i mikrosistemnaya tekhnika, 2011, № 1, P. 26–30. |
| [10] | Kovalevskii А.А., Tsybul'skii V. V Strogova А. S. et al. Composition and structure of titanium disilicide obtained by combining of mechanoactivation and self-propagating high-temperature synthesis // Materialy. Tekhnologii. Instrumenty. 2011. V. 16, № 3. P. 37–42. |
| [11] | Basaev A.S., Saurov A.N., Labunov V.A., Kovalevskii A.A. et al. About combustion of micro- and nanostructured silicon powders // Nano- i mikrosistemnaya tekhnika, 2009. V. 12(113). P. 22–30. |
| [12] | Kovalevskii A. A., Labunov V. A., Strogova A. S., Komar O. M. Obtaining and Application Areas of Nanostructured Powders of Silicon and Titanium Disilicide // Engineering and Technology. 2015; V. 2(2): pp.13–22. |
