Журналы →  Non-ferrous Metals →  2003 →  №1 →  Назад

Self-Propagating High-Temperature Synthesis of Advanced Materials
Название Self-Propagating High-Temperature Synthesis of Diamond-Containing Functionally-Graded Materials on the Base of TiB2—TiN Ceramic Matrix
Автор E. A. Levashov, P. Y. Akulinin, B. R. Senatulin, M. N. Sorokin, Y. G. Ralchenko
Библиографический список

 

1. Handbook of industrial diamonds and diamond films / Ed. M. Prelas. G. Popovici, L. Bigelow, M. Dekker. — New York, 1997— 300 p.

2. R. K. Zalavutdinov, A. E. Gorodetsky, A P. Zakharov. et al. // Diamond and Related Materials. 1998. N 7. P. 1014-1016.

3. V. G. Ralchenko, A. A. Smolin, V. G. Pereverzev et al. // Diamond and Related Materials. 1995. N 4. P. 754-758.

4. V. G. Ralchenko. S. M. Pimenov, V. G. Pereverzev et al. // Diamond Based Composites / Ed. M. A. Prelas et al.  Dordecht: Kluwer Acad. publ., 1997. P. 39-52. (NATO ASI Series).

5. V. G. Ralchenko. A. A Smolin, I. Vlasov et al. // Molecular Mater. 1998. N 11. P. 143-148.

6. Pat. PCT/JP97/02469 / E. A Levashov, В. V. Spitsyn, M. Ohyanagi et at. — Publ. as WO 99/03641 of 28 Jan. 1999.

7. E. A. Levashov, В. V. Spitsyn // Hybride Technology for Production of Diamond-Containing Graded Composite with ThickCoating: Abstracts of European conf. on advancesin hardmaterials production. — Torino (Italy), 1999.

8. K. L. Padyukov,E. A Levashov, I. P. Borovinskaya // Industrial Diamond Rev. 1992. N 5. P. 255-256.

9. K. L. Padyukov, E. A Levashov, I. P. Borovinskaya, Yu. V. Bogatov // Int. J. SHS. 1992. V. 1. P. 443-446.

10. K. L. Padyukov, E. A Levashov, I. P. Borovinskaya // J. Eng. Phys. and Thermophys. 1993. V. 63. N 5. P. 1091-1105.

11. M. Ohyanagi, T. Yoshikawa, T. Yamamoto et al. // J. Trans. Mat. Res. Soc. Jap. 1994. V. 14A. P. 685-688.

12. M. Ohyanagi, T. Yoshikawa, T. Yamamoto et al. // Int. J. SHS. 1995. V.4. P. 387-394.

13. К. L. Padjukov, E. A. Levashov, I. P. Borovinskaja // Eng.-Phys. Journal. (Russian). 1992. V. 63. N 5.

14. E. A. Levashov, A. S. Rogachev, V. I. Juhvid, I. P. Borovinskaja. Physical-Chemical and Technological Bases of Self-Propagating High-Temperature Synthesis. — Moscow: BINOM, 1999. P. 134-147.

15. Patent 2135327, Russian Federation. Composite Material Containing Highly Abrasive Particles, and Method to Produce It. / E. A. Levashov, A. V. Trottsyuk, I. P. Borovinskaya et al. — Claimed 27.09.95, registered 27.09.99.

16. Pat. WO 95/08654, Int. CI. С 22 С 29/00, В 22 F 3/10, С 22 С 1/05. Composite Material And Process for Producing the Same / M. Koizumi, M. Ohyanagi, S. Hosonu et al. - Publ. 1995.

17. E. A. Levashov, В. V. Spitsyn // Hybride SHS Technologies Based for Production of Composite Materials: Abstracts. V Intern. Sympos. on SHS. — Moscow (Russia), 1999. P. 43.

18. E. A. Levashov, V. G. Ralchenko, S. A. Yasinsky et al. // Proc. Higher Schools. Non-ferrous Metallurgy (Russian). 2001. N 6. P. 76-83.

19. A. E. Grigoryan. SHS of Ceramic, Ceramic-Metal and Functionally-Graded Materials in Ternary Systems on the Basis of Titanium: Diss. Cand. Tech. Sci. — Chernogolovka, 2000.

20. E. A. Levashov, I. P. Borovinskaya, M. Koizumi, M. Ohyanagi // Inter. J. Self-Propagating High-Temperature Synthesis. 1993. V. 2. N 2. P. 189-191.

21. E. V. Shelekhov // Trans. Nation. Conf. on Application of X-Ray, Synchrotron Radiation, Neutrons and Electrons for Investigations of Materials (Dubna, May 25-29, 1997). - Dubna: OIYal, 1997. V. 3. P. 316.

 

Language of full-text английский
Полный текст статьи Получить
Назад