Funct. Mater. 2022; 29 (2): 291-298.

doi:https://doi.org/10.15407/fm29.02.291

Development of technology for forming vacuum-arc TiN coatings using additional impulse action

N.V.Pinchuk, V.V.Starikov, H.O.Kniazieva, S.V.Surovytskyi, N.V.Konotopska

National Technical University Kharkiv Polytechnic Institute, 2 Kyrpychova Str., 61002 Kharkiv, Ukraine

Abstract: 

The effect of supplying a constant and high-voltage pulse with duration of 10 μs on the formation of predominantly oriented crystallites and the stress-strain state of vacuum-arc TiN coatings at two pressures of a nitrogen atmosphere is analyzed. It is shown that the deposition of the coatings under conditions of high voltage cascading effect leads to the growth of crystallites with the texture axis <\p>

110. and to a change in the stress-strain state (reduction of deformation in the group of crystallites with the axis <\p>

111. ). The obtained results are explained by an increase in the mobility of atoms and ordering processes in the region of the displacement cascades formed under the action of bombarding high-energy ions accelerated in the field of high-wave pulse potential. Computer simulations of the main processes observed during deposition were performed.

Keywords: 
TiN, coating, pulse influence, computer simulation, duration, radiation factor, texture, deformation.
References: 
1.M.Chernets, M.Pashechko, A.Nevchaz, Doslidzhennya and Rozrakhunok of Tribosystems Kovzannya, Methods of Advancing Durability and Weariness, Kolo, Drogobich, (2001) [in Ukrainian].
 
2. O.V.Zakalov, I.O.Zakalov, Basics of Rubbing and Business in Cars: Navch. Posibnik, View of TNTU im. I. Pulyuya, Ternopil (2011) [in Ukrainian].
 
3. V.A.Boguslaev, L.V.Ivshchenko, A.Ya.Kachan, V.F.Mozgovoy, Contact Interaction of GTE Mating Parts, Publishing House of Motor Sich OJSC, Zaporozhye (2009) 328 p.
 
4. A.V.Chichinadze, E.M.Berliner, E.D.Brown, Friction, Wear and Lubrication. Tribology and Tribology, Mashinostroenie, Moscow (2003) [in Russian].
 
5. K.A.Krylov, M.E.Khaimnzon, Durability of Aircraft Friction Units, Transport, Moscow (1976) [in Russian].
 
6. V.A.Trofimov, V.M.Beletskiy, Technological Systems, 35, 56 (2002).
 
7. A.S.Bychkov, V.M.Fedirko, Physical Mechanics of Materials, 1, 14 (2010).
 
8. A.S.Bychkov, Problems of Rubbing and Building, 1, 98 (2016).
 
9. S.Veprek, M.G.J.Veprek-Heijman, P.Karvankova, J.Prochazka, Thin Solid Films, 476, 1 (2005).
https://doi.org/10.1016/j.tsf.2004.10.053
 
10. O.V.Sobol, FTT, 49, 6 (2007).
https://doi.org/10.1134/S1063783407060236
 
11. A.D.Pogrebnyak, A.P.Shpak, N.A.Azarenkov, V.M.Beresnev, Phys., 179, 35 (2009).
https://doi.org/10.3367/UFNr.0179.200901b.0035
 
12. A.I.Gusev, Nanomaterials, Nanostructures, Nanotechnology, Fizmalit, Moscow (2005).
 
13. A.P.Shpak, P.G.Cheremskoy, Yu.aKunitskiy, O.V.Sobol, Cluster and Nanostructured Materials, vol. 3, Academperiodika, Kiev (2005).
 
14. R.A.Andrievsky, A.V.Ragulya, Nanostructured Materials, Academy, Moscow (2005).
 
15. Ch.Poole, F.Owens, Nanotechnology, Technosphere, Moscow (2004).
 
16. Yu.I.Golovin, Introduction to Nanotechnology, Mechanical Engineering, Moscow (2007).
 
17. N.P.Lyakishev, M.I.Alymov, Russian Nanotechnology, 1, 71 (2006).
 
18. N.I.Noskov, R.R.Mulyukov, Submicrocrystalline and Nano-crystalline Metals and Alloys, Ural Branch of the Russian Academy of Sciences, Yekaterinburg (2003).
 
19. O.V.Sobol', A.A.Andreev, V.A.Stolbovoj et al., VANT, 4-98/74, 174 (2011).
 

20. O.V.Sobol', O.A.Shovkoplyas, Technical Physics Letters, 39, 536 (2013).
https://doi.org/10.1134/S1063785013060126

21. I.C.Noyanand, J.B.Cohen, Residual Stress Measurement by Diffraction and Interpretation, Springer-Verlag: NewYork (1987).

22. C.Genzel, Phys. Stat. Sol. (a), 159, 283 (1997).
https://doi.org/10.1002/1521-396X(199702)159:2<283::AID-PSSA283>3.0.CO;2-O

23. C. Genzel, W.Reinmers, Phys. Stat. Solidi: A-Applied Research, 166, 751 (1998).
https://doi.org/10.1002/(SICI)1521-396X(199804)166:2<751::AID-PSSA751>3.0.CO;2-L

24. E.Aznakayev, Micron-Gamma for Estimation the Physico-mechanical Properties of Micro-materials, Proc. of the Intern. Conf. Small Talk - 2003, San Diego, California, USA (2003), p.8.
 
25. V.F.Gorban', Powder Metallurgy and Metal Ceramics, 47, 493 (2008).
https://doi.org/10.1007/s11106-008-9048-9
 
26. O.V.Sobol, A.A.Andreev, S.N.Grigoriev et al., Metallofiz. the Latest Technol., 35, 943 (2013).
 
27. N.V.Pinchuk, O.V.Sobol', V.V.Subbotina, G.I.Zelenskaya, Functional Materials, 27, 595 (2020)
https://doi.org/10.15407/fm27.03.595
 
 
 
 

Current number: