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Composites and multipurpose coatings
Название Dispersive-charged Al–TiC composition materials
Автор Mikheev R. S., Chernyshova T. A., Kobeleva L. I.
Информация об авторе R. S. Mikheev, Junior Researcher, e-mail: mikheev.roman@mail.ru; T. A. Chernyshova, Chief Researcher; L. I. Kobeleva, Senior Researcher, The Baykov Institute of Metallurgy and Material Science of the Russian Academy of Sciences.
Реферат
Composition materials with matrix of aluminium alloys, hardened with TiC particles, have been produced with casting technology using method of mechanical mixing of filling compound in matrix melt. The structure, mechanical and tribotechnical properties of composition materials have been researched. It has been shown, that TiC particles become the center of crystallization thanks to satisfactory Al wetability with melt. Filling compound distribution in matrix, evaluated with method of Dirikhle mosaics has been characterized as slightly regular. Implementation of TiC particles in matrix melts stabilize friction process, widen triboloading diapason, lead to reducing friction coefficient and raising durability by 2–3 times.
Ключевые слова Composition materials on the base of aluminium alloys, titanium carbide, mechanical mixing of filling compound, durability.
Библиографический список

1. Chernyshova T. A., Kobeleva L. I., Bolotova L. K. Metally —Metals. 2001. No. 6. pp. 85–98.

2. Chernyshova T. A., Kobeleva L. I., Lemesheva T. V. Perspektivnye materialy – Prospective Materials. 2004. No. 3. pp. 69–75.

3. Hosking F. M., Folgar Portillo F., Wunderlin R., Mehrabian R. Composites of aluminum alloys : fabrication and wear behavior. J. Mater. Science. 1982. No. 17. pp. 477–498.

4. Rohatgi P. Cast aluminium-matrix composites for automotive applications. J. Miner., Met. & Mater. Soc. 1991. Vol. 43, No. 4. pp. 10–16.

5. Ramesh K. C., Sagar R. Fabrication of metal matrix composite automotive parts. J. Adv. Manuf. Technol. 1999. No. 15. pp. 114–118.

6. Purohit R., Sagar R. Fabrication of cam using metal matrix composites. J. Adv. Manuf. Technol. 2001. No. 17. pp. 644–648.

7. Kryachek V. M. Friction composites : Traditions and new solutions (review). II. Composite materials Powder Metall. Met. Ceram. 2005. No. 44. pp. 5–16.

8. Thakur S. K., Dhindaw B. K. Wear. 2001. No. 247. pp. 191–201.

9. Unlu B. S. Mater. Des. 2008. No. 29. pp. 2002–2008.

10. Mikheev R. S., Chernyshova T. A. Zagotovitel'nye proizvodstva v mashinostroenii – Preparation production in Machine Engineering. 2008. No. 11. pp. 44—53.

11. Frage N., Frumin N., Levin L. and etc. Metall. Mater. Trans. A. 1998. No. 29. pp. 1341–1345.

12. Chernyshova T. A., Kobeleva L. I., Bolotova L. K., Lemesheva T. V. Perspektivnye materialy – Prospective Meterials. 2005. No. 3. pp. 38–44.

13. GOST 1583–93. Splavy alyuminievye liteynye. Tekhnicheskie kharakteristiki (Aluminium casting alloys. Technical characteristics). Vved. 1997-01-01. Minsk: Mezhgos. sovet po standartizatsii, metrologii i sertifikatsii.

14. GOST 1320–74 (ISO 4383–91). Babbity olovyannye i svintsovye. Tekhnicheskie usloviya. (Tin and lead babbits. Technical conditions) Vzamen GOST 1320–55 ; vved. 2001-10-01. Minsk : Mezhgos. sovet po tandartizatsii, metrologii i sertifikatsii.

15. Murphy A. M., Howard S. J., Clyne T. W. Key Eng. Mater. 1997. No. 127–131. pp. 919–928.

16. Wray P. J., Richmond O., Morrison H. L. Metallography. 1983. No. 16. pp. 39–58.

17. Chernyshova T. A., Plishkin D. N., Kobeleva L. I., Bolotova L. K. Materialovedenie – Material Sciences. 2000. No. 11. pp. 24–28.

18. Shipway P. H., Kennedy A. R., Wilkes A. J. Wear. 1998. No. 216. pp. 160–171.

19. Fuks I. G., Buyanovskiy I. A. Vvedenie v tribologiyu : uchebnoye posobie (Introduction in tribology: educational book). Moscow : Neft' i gaz, 1995. 278 p.

20. Trenie, iznos i smazka (tribologiya i tribotekhnika) (Friction, amortization and lubricant (tribology and triboengineering)). A. V. Chichinadze i dr. ; pod obshch. red. A. V. Chichinadze. Moscow : Mashinostroenie, 2003. 576 p.

21. Penkin N. S., Penkin A. N., Serbin V. M. Osnovy tribologii i tribotekhniki : ucheb. posobie (Basis of tribology and triboengineering). Moscow: Mashinostroenie, 2008. 206 p.

22. Archard J. F. Contact and rubbing of flat surfaces. J. Appl. Phys. 1953. No. 24. pp. 981–988.

23. Belov N. A., Savchenko S. V., Khvan A. V. Fazovyy sostav i struktura siluminov: sprav. izd. (Phase content and structure of silumin: reference edition). Moscow : MISIS, 2008. 283 p.

24. Bushe N. A., Mironov A. E., Markova T. F. Privodnaya tekhnika. - Driving engineering. 2003. No. 5. pp. 57–62.

25. Hanumanth G. S., Irons G. A. Metall. Mater. Trans. B. 1996. No. 27. pp. 663–671.

26. Cetin A., Kalkanli A. J. Mater. Proc. Technol. 2008. No. 205. pp. 1–8.

27. Mitra R., Mahajan Y. R. Interfaces in discontinuosly reinforced MMC (An Overview). Bull. Mater. Sci. 1995. No. 18. pp. 405–434.

28. Rhee S. K. J. Am. Ceram. Soc. 1970. No. 53. pp. 386–389.

29. Froumin N., Frage N., Polak M., Dariel M. P. Scripta Metallurgica et Materialia. 1997. No. 37. pp. 1263–1267.

30. Banerji A., Reif W. Metall. Trans. A. 1986. No. 17. pp. 2127–2137.

31. Xion P., Derby B. Acta Mater. 1996. No. 44. pp. 307–314.

32. Leon C. A., Lopez V. H., Bedolla E. J. Mater. Sci. 2002. No. 37. pp. 3509–3514.
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