Geodesic
Influence of ion nitriding on the phase composition, structure and properties of carbon coatings
Problemy fiziki, matematiki i tehniki, no. 1 (2016), pp. 37-41.

Voir la notice de l'article provenant de la source Math-Net.Ru

The basic patterns of change in the properties, phase composition and mechanical properties of single-component and doped metal (Cr, Ti, Cu) carbon coatings, subjected to ion nitriding are determined. It is shown that ion nitriding is in the surface layers of increasing the share of sp$^2$-phase with a decrease in the size of the clusters. When the ion nitriding carbonaceous coatings established education CN$_{\mathrm x}$ compounds with predominant content of N–Csp$^2$ bonds. Single-carbon coating after ion nitriding are characterized by a more dispersed structure, high content N–Csp$^3$ bonds, in comparison with the structure and composition of the coating formed under ion assisting or in the presence of molecular nitrogen.
Keywords: carbon coatings, alloying, nitriding, morphology, hardness
Mots-clés : phase composition, friction. 
@article{PFMT_2016_1_a6,
     author = {A. S. Rudenkov and A. V. Rogachev and D. G. Piliptsov and N. N. Fedosenko and Xiaohong Jiang},
     title = {Influence of ion nitriding on the phase composition, structure and properties of carbon coatings},
     journal = {Problemy fiziki, matematiki i tehniki},
     pages = {37--41},
     publisher = {mathdoc},
     number = {1},
     year = {2016},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/PFMT_2016_1_a6/}
}
TY  - JOUR
AU  - A. S. Rudenkov
AU  - A. V. Rogachev
AU  - D. G. Piliptsov
AU  - N. N. Fedosenko
AU  - Xiaohong Jiang
TI  - Influence of ion nitriding on the phase composition, structure and properties of carbon coatings
JO  - Problemy fiziki, matematiki i tehniki
PY  - 2016
SP  - 37
EP  - 41
IS  - 1
PB  - mathdoc
UR  - http://geodesic.mathdoc.fr/item/PFMT_2016_1_a6/
LA  - ru
ID  - PFMT_2016_1_a6
ER  - 
%0 Journal Article
%A A. S. Rudenkov
%A A. V. Rogachev
%A D. G. Piliptsov
%A N. N. Fedosenko
%A Xiaohong Jiang
%T Influence of ion nitriding on the phase composition, structure and properties of carbon coatings
%J Problemy fiziki, matematiki i tehniki
%D 2016
%P 37-41
%N 1
%I mathdoc
%U http://geodesic.mathdoc.fr/item/PFMT_2016_1_a6/
%G ru
%F PFMT_2016_1_a6
A. S. Rudenkov; A. V. Rogachev; D. G. Piliptsov; N. N. Fedosenko; Xiaohong Jiang. Influence of ion nitriding on the phase composition, structure and properties of carbon coatings. Problemy fiziki, matematiki i tehniki, no. 1 (2016), pp. 37-41. http://geodesic.mathdoc.fr/item/PFMT_2016_1_a6/

[1] A. V. Rogachev, “Tribotekhnicheskie svoistva kompozitsionnykh pokrytii, osazhdaemykh vakuumno-plazmennymi metodami”, Trenie i iznos, 29:3 (2008), 285–592 | MR

[2] C. Donnet, A. Erdemir, Tribology of Diamond-like Carbon Films: Fundamentals and Applications, Springer Science Business Media, 2007, 680 pp.

[3] A. S. Rudenkov, “Vliyanie kontsentratsii metalla na fazovyi sostav, strukturu i svoistva uglerod-metallicheskikh pokrytii”, Problemy fiziki, matematiki i tekhniki, 2015, no. 3(24), 26–32

[4] J. Robertson, “Diamond like carbon”, Pure and Applied Chemistry, 66 (1994), 1789–1796 | DOI

[5] Y. Lifshitz, “Diamond like carbon-present status”, Diamond and Related Materials, 8 (1999), 1659–1676 | DOI

[6] A. G. Khurshudov, K. Kato, “Tribological properties of carbon nitride overcoat for thin-film magnetic rigid disks”, Surface and Coatings Technology, 9 (1996), 537–542

[7] J. Koskinen et al., “Tribological characterization of carbonnitrogen coatings deposited by using vacuum arc discharge”, Diamond and Related Materials, 5 (1996), 669–673 | DOI

[8] C. Bauer et al., “Mechanical properties and performance of magnetron-sputtered graded diamond-like carbon films with and without metal additions”, Diamond and Related Materials, 11 (2002), 1139–1142 | DOI

[9] E. Broitman et al., “Mechanical and tribological properties of $CN_x$ films deposited by reactive magnetron sputtering”, Wear, 248 (2001), 55–64 | DOI

[10] V. A. Beloshenko, V. N. Varyukhin, B. E. Shkuratov, “Poluchenie uglerod-azotnykh pokrytii, modifitsirovannykh nitridom titana”, Zhurnal tekhnicheskoi fiziki, 74 (2004), 131–133

[11] D. G. Piliptsov, A. S. Rudenkov, R. V. Bekarevich, “Morfologiya kompozitsionnykh pokrytii na osnove ugleroda, podvergnutykh obrabotke ionami azota”, Problemy fiziki, matematiki i tekhniki, 2010, no. 3(4), 31–34 | MR

[12] B. Chzhou i dr., “Legirovannye azotom almazopodobnye pokrytiya: struktura i svoistva”, Materialy, tekhnologii, instrumenty, 18:3 (2013), 16–21 | MR

[13] R. T. Haasch et al., “Epitaxial TiN (001) grown and analyzed in situ by XPS and UPS. I: Analysis of as-deposited layers”, Surface Science Spectra, 7 (2000), 193–203 | DOI

[14] R. T. Haasch et al., “Epitaxial CrN (001) grown and analyzed in situ by XPS and UPS. I: Analysis of as-deposited layers”, Surface Science Spectra, 7 (2000), 250–261 | DOI

[15] C. Navio et al., “Thermal stability of Cu and Fe nitrides and their applications for writing locally spin valves”, Applied Physics Letters, 94 (2009), 263112-1–263112-3 | DOI

[16] X. Chen et al., “Microstructure, mechanical and tribological properties of CNx thinfilms prepared by reactive magnetron sputtering”, Acta Matallurgic Sinica, 27 (2014), 31–36