Geodesic
Influence of metal concentration on the phase composition, structure and properties of carbon-metal coating
Problemy fiziki, matematiki i tehniki, no. 3 (2015), pp. 26-32.

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

The morphological features, phase composition, microhardness and tribological properties of composite carbon coatings formed by co-precipitation of carbon plasma streams of pulsed cathodic arc discharge and flows of atoms of the metal ions (Cr, Ti, Cu) generated by magnetron sputtering, and their dependence on the power source sputtering are determined. It is shown that such layers are characterized by high density and order of $\mathrm{sp}^2$-clusters and low roughness. The hardness increases and the wear rate of counterbody decreases with increasing the power of magnetron.
Keywords: carbon coatings, $\mathrm{sp}^2$-clusters, alloying, magnetron, morphology, roughness, hardness, wear.
Mots-clés : phase composition, friction 
@article{PFMT_2015_3_a4,
     author = {A. S. Rudenkov},
     title = {Influence of metal concentration on the phase composition, structure and properties of carbon-metal coating},
     journal = {Problemy fiziki, matematiki i tehniki},
     pages = {26--32},
     publisher = {mathdoc},
     number = {3},
     year = {2015},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/PFMT_2015_3_a4/}
}
TY  - JOUR
AU  - A. S. Rudenkov
TI  - Influence of metal concentration on the phase composition, structure and properties of carbon-metal coating
JO  - Problemy fiziki, matematiki i tehniki
PY  - 2015
SP  - 26
EP  - 32
IS  - 3
PB  - mathdoc
UR  - http://geodesic.mathdoc.fr/item/PFMT_2015_3_a4/
LA  - ru
ID  - PFMT_2015_3_a4
ER  - 
%0 Journal Article
%A A. S. Rudenkov
%T Influence of metal concentration on the phase composition, structure and properties of carbon-metal coating
%J Problemy fiziki, matematiki i tehniki
%D 2015
%P 26-32
%N 3
%I mathdoc
%U http://geodesic.mathdoc.fr/item/PFMT_2015_3_a4/
%G ru
%F PFMT_2015_3_a4
A. S. Rudenkov. Influence of metal concentration on the phase composition, structure and properties of carbon-metal coating. Problemy fiziki, matematiki i tehniki, no. 3 (2015), pp. 26-32. http://geodesic.mathdoc.fr/item/PFMT_2015_3_a4/

[1] J. Robertson, “Diamond-like amorphous carbon”, Material Science and Engineering R, 37:4–6 (2002), 129–281 | DOI

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

[3] K. V. Frolov, Sovremennye metody uprochneniya poverkhnostei detalei mashin: obzor. inform., Nauchno-tekhnicheskii progress v mashinostroenii, 9, M., 1991, 187 pp.

[4] C. Donnet et al., “Diamond-like carbon based functionally gradient coatings for space tribology”, Surface and Coatings Technology, 120 (1999), 548–554 | DOI

[5] A. Grill, “Tribology of diamond-like carbon and related materials: an updated review”, Surface and Coatings Technology, 95 (1997), 507–513 | DOI

[6] A. Erdemir et al., “Synthesis of superlow friction carbon films from highly hydrogenated methane plasmas”, Surface and Coatings Technology, 134 (2000), 448–454 | DOI

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

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

[10] A. Varade et al., “Detailed Raman study of DLC coating on Si(100) made by RF-PECVD”, Procedia Engineering, 97 (2014), 1452–1456 | DOI

[11] B. R. Chrcanovic, A. R. Pedrosa, M. D. Martins, “Chemical and topographic analysis of treated surfaces of five different commercial dental titanium implants”, Materials Research, 15 (2012), 372–382 | DOI

[12] Y-H. Lin et al., “Structure and characterization of the multilayered Ti-DLC films by FCVA”, Diamond and Related Materials, 19 (2010), 1034–1039 | DOI

[13] A. V. Rogachev, D. G. Piliptsov, N. N. Fedosenko, A. S. Rudenkov, “Vysokolegirovannye metallami uglerodnye pokrytiya: mekhanicheskie svoistva, morfologiya, vliyanie prirody i kontsetratsii metalla”, Materialy, tekhnologii, instrumenty, 16:3 (2011), 26–30 | Zbl

[14] S. G. Zaichenko, A. M. Glezer, “Dislokatsionnyi mekhanizm plasticheskoi deformatsii nanokristallicheskikh materialov”, Fizika tverdogo tela, 1997, no. 11, 2023–2028

[15] C. W. Zou et al., “Effects of Cr concentrations on the microstructure, hardness, and temperature-dependent tribological properties of Cr-DLC coatings”, Applied Surface Science, 286 (2013), 137–141 | DOI