Print

2012 №01 (10) 2012 №01 (12)

The Paton Welding Journal 2012 #01
The Paton Welding Journal, 2012, #1, 41-47 pages  

THERMAL SPRAYING OF PSEUDO-ALLOY COATINGS (Review)

N.V. VIGILYANSKAYA, Yu.S. BORISOV and I.A. DEMIANOV


E.O. Paton Electric Welding Institute, NASU, Kiev, Ukraine
 
 
Abstract
The paper presents the experience in development and application of thermal spray pseudo-alloy coatings, and describes the principle of their formation. Characteristics of the most extensively used pseudo-alloy coatings and the effectiveness of their practical application in different engineering fields are given.
 
 
Keywords: thermal spraying, electric arc spraying, composite coating, pseudo-alloy, pseudo-alloy coating, properties of coatings, practical application
 
 
Received:                05.09.11
Published:               28.01.12
 
 
References
1. Kulik, A.Ya., Borisov, Yu.S., Mnukhin, A.S. et al. (1985) Thermal spraying of composite powders. Leningrad:  ashinostroenie.
2. (1977) Encyclopedia of inorganic materials. Kiev: Ukr. Sov. Encyclop., Vol. 2.
3. Karpinos, D.M., Tuchinsky, L.I., Sapozhnikova, A.B. et al. (1985) Composite materials in engineering. Kiev: Tekhnika.
4. Andreeva, A.V. (2001) Principles of physical chemistry and technology of composites: Manual for higher education institutions. Moscow: IPRZhR.
5. Shahparast, F., Davies, B.L. (1978) A study of the potential of sintered iron-lead-tin alloys as bearing materials. Wear, 1, 145-153.
6. (1981) Sintered materials for electrical engineering and electronics. Ed. by G.G. Gnesin. Moscow: Metallurgiya.
7. Rakovsky, V.S. (1978) Sintered materials in engineering. Moscow: Metallurgiya.
8. Skorokhod, V.V., Solonin, S.M., Chernyshov, L.I. (1978) High-porosity tungsten-copper materials produced by liquid phase sintering. Rep. 1. Poroshk. Metallurgiya, 2, 17-21.
9. Skorokhod, V.V., Solonin, S.M., Chernyshov, L.I. (1978) High-porosity tungsten-copper materials produced by liquid phase sintering. Rep. 2. Ibid., 10, 89-92.
10. Tikhy, G.A., Kachalin, N.I., Belova, V.P. (2007) Study of Mo-Cu pseudo-alloy produced from mechanically activated charge. Metalloved. i Termich. Obrab. Metallov, 9, 25-29.
11. Pimenova, N.V. (2009) Production and investigation of properties of copper based composites: Syn. of Thesis for Cand. of Techn. Sci. Degree. Perm.
12. Karpinos, D.M. (1985) Composites: Refer. book. Kiev: Naukova Dumka.
13. Dulnev, G.N., Zarichnyak, Yu.P. (1974) Thermal conductivity of mixtures and composites. Moscow: Energiya.
14. Misnar, A. (1968) Thermal conductivity of solids, fluids, gases and their compositions. Moscow: Mir.
15. Galinov, I.V. (1993) Investigation of the composition of Ag, Ni and Ag-Ni pseudoalloy coatings applied by electrospark
alloying on a Cu substrate. Surface and Coatings Technology, 56(2), 131-135.
16. Technologies for deposition of coatings. www.inacotec.com/technology
17. Zalyaeva, G.O. (2007) Diagnostics, repair, assembly and maintenance of equipment: Manual. Petropavlovsk-Kamchatsky: KamchatGTU.
18. Versatile plasmatron UShR-2 for spraying of coatings. www.plasmacentre.ru/index.php
19. Shashkov, A.N. (1960) Antifriction pseudo-alloys. Issue 21. Moscow: Mashgiz.
20. www.ai08.org/index.php/list/Т-хнич-ский+словарь+Том+I/3,Э.xhtml
21. Tylkin, M.A. (1981) Reference book of repair service specialist in heat treatment. Moscow: Metallurgiya.
22. www.ai08.org/index.php/index/Т-хнич-ский+словарь+Том+I/.xhtml
23. Kats, N.V., Antoshin, E.V., Vadivasov, D.G. et al. (1966) Metallising by spraying. Moscow: Mashinostroenie.
24. Borisov, Yu.S., Kharlamov, Yu.A., Sidorenko, S.L. et al. (1987) Thermal spray coatings from powder materials: Refer. Book. Kiev: Naukova Dumka.
25. Hasui, A., Morigaki, O. (1985) Surfacing and spraying. Moscow: Mashinostroenie.
26. Venugopal, T., Prasad Rao, K., Murty, B.S. (2007) Mechanical properties of Cu-Ta nanocomposites prepared by high-energy ball milling. Acta Mater., 55(13), 4439-4445.
27. Wille, C.G., Tala'at Al-Kassab, Kirchheim, R. (2011) Time evolution of morphology in mechanically alloyed Fe-Cu. Ultramicroscopy, 111(6), 730-737.
28. Sun, A., Wang, D., Wu, Zh. et al. (2011) Mechanochemical synthesis of Mo-Cu nanocomposite powders. J. Alloys and Compounds, 509(5), 74-77.
29. Kats, N.V. (1968) Restoration of textile machine parts by metallising. Moscow: Lyog. Industriya.
30. Krasnichenko, L.V., Smolyaninov, A.I., Podkovich, E.G. et al. (1966) Complex metallised pseudo-alloys as bearing materials. In: Application of new materials in agricultural machine-building: Coll. Rostov-na-Donu.
31. Krasnichenko, L.V. (1958) Modern technology for metallising by spraying. Moscow: Trudrezervizdat.
32. Liao, H.L., Zhu, Y.L., Bolot, R. et al. (2005) Size distribution of particles from individual wires and the effects of nozzle geometry in twin wire arc spraying. Surface and Coatings Technology, 200(7), 2123-2130.
33. (1991) Application of new materials in agricultural machine-building: Coll. Ed by V.V. Rubanov. Rostov-na-Donu: RISKhM.
34. Borisova, A.L., Gubenko, B.G., Kostin, V.A. et al. (1990) Peculiarities of formation and structure of electrometallised coatings of steel-aluminium system. Avtomatich. Svarka, 8, 41-44.
35. Titlyanov, A.E., Radyuk, A.G., Pedos, S.I. Method for production of thermal spray coatings. Pat. 2063470 RF. Int. Cl. C 23 C4/18, C23 C4/04. Publ. 10.07.1996.
36. Method for production of composite arc coatings. Pat. 19967 Ukraine. Int. Cl. C 23 C 4/00. Publ. 15.01.2007.
37. Markovich, S.I. (2007) Increase in wear resistance of machine parts by arc spraying of composite coatings using different wires: Syn. of Thesis for Cand. of Techn. Sci. Degree. Kyiv.
38. Lester, T., Kingerley, D.J., Harris, S.J. et al. (1998) Thermally sprayed composite coatings for enhanced corrosion protection of steel structures. In: Proc. of 15th ITSC (Nice, France, 25-29 May), Vol. 1, 49-55.
39. Isakaev, E.Kh., Gusev, V.M., Mordynsky, V.B. (2008) Extension of service life of oil-field equipment parts with thermally sprayed coatings. Tekhnologiya Mashinostroeniya, 12, 18-22.
40. Ponomaryov, A.I., Makaeva, Z.A., Komlyukov, N.V. et al. Method for increasing wear resistance of pistons. USSR author's cert. 291994. Int. Cl. C 23 C 7/00. Publ. 06.01.71.
41. Efremov, S.Yu. (2005) Extension of service life of piston compression rings in manufacture of spare parts for ship repair: Syn. of Thesis for Cand. of Techn. Sci. Degree. Novgorod.
42. Pyatak, A.I., Lyubchenko, A.P., Glushkova, D.B. et al. (2010) Nondestructive method for testing of piston rings after running-in and operation. Mir Tekhniki i Tekhnologij, 1, 126-128.

Suggested Citation

N.V. VIGILYANSKAYA, Yu.S. BORISOV and I.A. DEMIANOV (2012) THERMAL SPRAYING OF PSEUDO-ALLOY COATINGS (Review). The Paton Welding J., 01, 41-47.