Formation of high strength and corrosion resistance composition cover on the surface of casting

The article is devoted in the casting process of alloying the surface of castings by impregnating the powder composition with liquid iron when pouring the last casting mold. It is established that the impregnability of powder with liquid iron depends on the temperature of the metal, the thickness of the coatings and the particle size composition of the powders.

1. T.I. Shirinov et al., Multifunctional coatings (Baku: Education NPM, 2009) 226 p. (In Azerbaijanian)

2. F.R. Rasulov et al., Technological processes in machine building (Baku: AzTU, 2015) 243 p. (In Azerbaijanian)

3. V.N. Gadalov et al., The use of galvanic coatings in industry. Materials and hardening technologies. SWGU, Collection of materials XX Ross. International scientific and technical conference (Kursk, 2014) 211–216. (In Russian)

4. E.S. Kalutsky et al., Mechanization and electrification of agriculture 8 (2015) 29–31. (In Russian)

5. F.R. Rasulov, H.D. Novruzov, Mechanics-machine building 4 (2005) 49–50. (In Azerbaijanian)

6. N.Sh. Ismayilov, Technology of casting production (Baku: AzTU, 2014) 285 p. (In Azerbaijanian)

7. V.V. Kozyrev et al., Method for applying a wear-resistant iron-nickel coating to precision parts made of low-alloy steels. Patent No 2626126 (Tver State Technical University, 2017). (In Russian)

8. N.H. Gasimzade, Technology of metals and other construction materials (Baku: Maarif, 1975) 447 p. (In Azerbaijanian)

9. Aung Htut Thu et al., Litejnoe proizvodstvo 9 (2018) 22–25. (In Russian)

10. V.A. Syasko, A.E. Ivkin, Mir galvaniki 3 (2011) 47–50. (In Russian)

11. M.A. Guriev et al., International Journal of Experimental Education 8 (2015) 103–105. (In Russian)

12. Yu.V. Grebnev, V.F. Zharkova, Blancking productions in mechanical engineering (Forging and stamping, foundry and other productions) 2 (2015) 42–44. (In Russian)

13. I.V. Uskov, G.G. Krushenko, A.E. Burov, Technology of mechanical engineering 1 (2004) 6–8. (In Russian)

14. S.I. Goberis, V.M. Antonovich, Litejnoe proizvodstvo 8 (2002) 22–25. (In Russian)

15. R.J. Bashirov, Mechanics and Mechanical Engineering 1 (Baku, 2002) 37–39. (In Russian)

16. I.V. Rjabchikov, Modifikatory i tehnologii vnepechnoj obrabotki zhelezouglerodistyh splavov (Moscow: EKOMET, 2008) 399 p. (In Russian)

17. S.V. Safonov, V.P. Smolentsev, A.I. Portnykh, Progressive engineering technologies, equipment and tools 3 (Moscow: Spektr, 2014) 365–406. (In Russian)

18. B.D. Lygdenov, Polzunovsky Almanac 3 (2008) 45–46. (In Russian)

19. F.R. Rasulov, Technical Sciences 2 (2010) 28–33. (In Russian)

20. Ali Babakr et al., Journal of Minerals and Materials Characterization and Engineering 7 (2008) 127–145.

21. A.V. Titov et al., Technology of metals 12 (2013) 24–25. (In Russian)

22. S.S.Turin, G.I.Kleschenok, V.O. Struchkov, Metallurgy 24 (1990) 56–58. (In Russian)

23. F.R. Rasulov, Machine-building and Energy: New Concepts and Technologies International Scientific-practical Conference materials (Baku, 2021) 151–152.

24. F.R. Rasulov, A.I. Babaev, Engineering and Applied Sciences 3 (2018) 64–73.