Structure and mechanical properties of carbon coatings doped with zirconium and silicon

A. S. Rudenkov; D. G. Piliptsou; A. N. Kupo; S. A. Frolov

Geodesic

Parcourir par

Structure and mechanical properties of carbon coatings doped with zirconium and silicon

A. S. Rudenkov ; D. G. Piliptsou ; A. N. Kupo ; S. A. Frolov

Problemy fiziki, matematiki i tehniki, no. 4 (2023), pp. 42-47.

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

Résumé

The influence of carbon plasma parameters on the chemical and phase composition, morphology, and mechanical properties of carbon coatings doped with zirconium and silicon from a gas flow generated by stationary electric arc evaporation has been determined. It has been established that an increase in the repetition rate of carbon plasma pulses and the associated decrease in zirconium concentration leads to an increase in the nanohardness of composite coatings, due to an increase in the content of sp$^3$-hybridized carbon atoms.

Keywords: carbon coatings, silicon, chemical composition, morphology, hardness, plasticity.
Mots-clés : zirconium, phase composition

@article{PFMT_2023_4_a6,
     author = {A. S. Rudenkov and D. G. Piliptsou and A. N. Kupo and S. A. Frolov},
     title = {Structure and mechanical properties of carbon coatings doped with zirconium and silicon},
     journal = {Problemy fiziki, matematiki i tehniki},
     pages = {42--47},
     publisher = {mathdoc},
     number = {4},
     year = {2023},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/PFMT_2023_4_a6/}
}

TY  - JOUR
AU  - A. S. Rudenkov
AU  - D. G. Piliptsou
AU  - A. N. Kupo
AU  - S. A. Frolov
TI  - Structure and mechanical properties of carbon coatings doped with zirconium and silicon
JO  - Problemy fiziki, matematiki i tehniki
PY  - 2023
SP  - 42
EP  - 47
IS  - 4
PB  - mathdoc
UR  - http://geodesic.mathdoc.fr/item/PFMT_2023_4_a6/
LA  - ru
ID  - PFMT_2023_4_a6
ER  -

%0 Journal Article
%A A. S. Rudenkov
%A D. G. Piliptsou
%A A. N. Kupo
%A S. A. Frolov
%T Structure and mechanical properties of carbon coatings doped with zirconium and silicon
%J Problemy fiziki, matematiki i tehniki
%D 2023
%P 42-47
%N 4
%I mathdoc
%U http://geodesic.mathdoc.fr/item/PFMT_2023_4_a6/
%G ru
%F PFMT_2023_4_a6

A. S. Rudenkov; D. G. Piliptsou; A. N. Kupo; S. A. Frolov. Structure and mechanical properties of carbon coatings doped with zirconium and silicon. Problemy fiziki, matematiki i tehniki, no. 4 (2023), pp. 42-47. http://geodesic.mathdoc.fr/item/PFMT_2023_4_a6/

Bibliographie
Cité par

[1] D.G. Piliptsov, A.S. Rudenkov, P.A. Luchnikov, A.V. Rogachev, Tszyan Syao Khun, Chzhou Bin, Kompozitsionnye uglerodnye pokrytiya, osazhdennye iz impulsnoi katodnoi plazmy, Radiotekhnika, M., 2020, 283 pp.

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

[3] A. Ghadi, H. Ebrahimnezhad-Khaljiri, R. Gholizadeh, “A comprehensive review on the carbide-base coatings produced by thermo-reactive diffusion: microstructure and properties viewpoints”, Journal of Alloys and Compounds, 967 (2023), 171839 | DOI

[4] A.W. Zia, S.A. Hussain, M.M.F. Ashraf Baig, “Optimizing diamond-like carbon coatings - From experimental era to artificial intelligence”, Ceramics International, 48 (2022), 36000–36011 | DOI

[5] A.S. Rudenkov, A.V. Rogachev, D.G. Piliptsov, “Morfologiya i fazovyi sostav legirovannykh kremniem uglerod-titanovykh pokrytii”, Problemy fiziki, matematiki i tekhniki, 2021, no. 3 (48), 37–41

[6] Q. Wei, J. Sankar, J. Narayan, “Structure and properties of novel functional diamondlike carbon coatings produced by laser ablation”, Surface and Coatings Technology, 146:147 (2001), 250–257 | DOI

[7] A.S. Rudenkov, A.V. Rogachev, A.N. Kupo, S.M. Zavadskii, D.A. Golosov, P.A. Luchnikov, “Vliyanie rezhimov formirovaniya i uslovii termoobrabotki na fazovyi sostav i strukturu kremnii-uglerodnykh pokrytii, osazhdaemykh ionno-luchevym raspyleniem”, Nanomaterialy i nanostruktury? XXI vek, 10:2 (2019), 29–36

[8] M. Cloutier et al., “Long-term stability of hydrogenated DLC coatings: Effects of aging on the structural, chemical and mechanical properties”, Diamond and Related Materials, 48 (2014), 65–72 | DOI

[9] K. Mydlowska et al., “Evolution of Phase Composition and Antibacterial Activity of Zr-C Thin Films”, Proceesses, 8 (2020), 260 | DOI

[10] J. Peng et al., “Effect of nitrogen doping on the microstructure and thermal stability of diamond-like carbon coatings containing silicon and oxygen”, Surface Coatings Technology, 421 (2021), 127479 | DOI

[11] P. Lackner et al., “Using photoelectron spectroscopy to observe oxygen spillover to zirconia”, Physical Chemistry Chemical Physics, 21 (2019), 17613–17620 | DOI

[12] E.P. Domashevskaya i dr., “XPS-issledovaniya mezhatomnykh vzaimodeistvii v poverkhnostnom sloe mnogosloinykh nanostruktur (Co$_{45}$Fe$_{45}$Zr$_{10}$/a-Si)$_{40}$ i (Co$_{45}$Fe$_{45}$Zr$_{10}$/SiO$_{2}$)$_{32}$”, Fizika tverdogo tela, 56 (2014), 2219–2230

[13] A.S. Ferrari, J. Robertson, “Interpretation of Raman spectra of disordered and amorphous carbon”, Physical Review B, 61 (2000), 4095–4107 | DOI

[14] F. Tuinstra, J.L. Koenig, “Raman spectrum of graphite”, Journal of Chemical Physics, 53 (1970), 1126–1130 | DOI

[15] T.F. Zhang et al., “Microstructure and high-temperature tribological properties of Si-doped hydrogenated diamond-like carbon films”, Applied Surface Science, 435 (2018), 963–973 | DOI

[16] S. Zhang et al., “Bonding structure and haemocompatibility of silicon-incorporated amorphous carbon”, Thin Solid Films, 515 (2006), 66–72 | DOI

[17] 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

[18] D.G. Piliptsov, “Vliyanie termoobrabotki na mekhanicheskie svoistva sloistykh uglerodnykh pokrytii”, Problemy fiziki, matematiki i tekhniki, 2021, no. 3 (48), 29–37