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Protective double-layer coatings prepared by plasma enhanced chemical vapor deposition on tool steel

Protective double-layer coatings prepared by plasma enhanced chemical vapor deposition on tool steel
Protective double-layer coatings prepared by plasma enhanced chemical vapor deposition on tool steel
Hydrogenated diamond-like carbon films were prepared on high-speed steel substrates using low pressure radio-frequency capacitively coupled discharge (13.56 MHz) using methane mixed either with hydrogen or argon. A dc self-bias was induced by the rf discharge and accelerated the ions towards the substrates during the whole deposition process. Prior to the carbon film deposition and to improve the adhesion, the substrates were subject to plasma nitriding and coated with a silicon oxide layer using the same reactor. The deposited films were optically characterized (UV-IR) and by using a combination of Rutherford backscattering spectroscopy and elastic recoil detection the atomic composition was determined. The carbon films high hardness (~ 18 GPa) was assessed from indentation tests. Adhesion tests revealed critical loads up to 13.6 N for the carbon films deposited on steel substrates using silicon oxide interlayer. Friction coefficient varied from 0.02 against diamond and 0.23 against steel counterpart. The results suggest that hard carbon films can be deposited on steel substrate using a silicon oxide intermediate layer deposited by the same plasma process with commercial potential.
PECVD, DLC, amorphous carbon, hardness
0257-8972
229-238
Muresan, M.G.
2a225682-a6fa-448f-968c-d5a3fd76b4ec
Cambell, A.C.
9f7208d0-f8a7-4579-b3e5-903ea3ec8401
Ondracka, P.
af2b30b1-212f-4d86-be13-3e2a5341d037
Bursikova, V.
1b7ca414-4963-46ed-b54c-38e8afd389b9
Perina, V.
e8e619af-7d95-456c-89db-0f9f0a4d25ba
Polcar, T.
c669b663-3ba9-4e7b-9f97-8ef5655ac6d2
Reuter, S.
eadfcb12-1ca8-48c6-87f9-06350562ca6b
Hammer, M.U.
7bc5ac64-ee45-41e2-9bba-fa809cbff78e
Valtr, M.
4b6586f3-c9bc-4819-a7e3-6a2d3e348156
Zajickova, L.
477b1162-550b-4cb4-9c98-71ff9c188cc5
Muresan, M.G.
2a225682-a6fa-448f-968c-d5a3fd76b4ec
Cambell, A.C.
9f7208d0-f8a7-4579-b3e5-903ea3ec8401
Ondracka, P.
af2b30b1-212f-4d86-be13-3e2a5341d037
Bursikova, V.
1b7ca414-4963-46ed-b54c-38e8afd389b9
Perina, V.
e8e619af-7d95-456c-89db-0f9f0a4d25ba
Polcar, T.
c669b663-3ba9-4e7b-9f97-8ef5655ac6d2
Reuter, S.
eadfcb12-1ca8-48c6-87f9-06350562ca6b
Hammer, M.U.
7bc5ac64-ee45-41e2-9bba-fa809cbff78e
Valtr, M.
4b6586f3-c9bc-4819-a7e3-6a2d3e348156
Zajickova, L.
477b1162-550b-4cb4-9c98-71ff9c188cc5

Muresan, M.G., Cambell, A.C., Ondracka, P., Bursikova, V., Perina, V., Polcar, T., Reuter, S., Hammer, M.U., Valtr, M. and Zajickova, L. (2015) Protective double-layer coatings prepared by plasma enhanced chemical vapor deposition on tool steel. Surface and Coatings Technology, 272, 229-238. (doi:10.1016/j.surfcoat.2015.04.002).

Record type: Article

Abstract

Hydrogenated diamond-like carbon films were prepared on high-speed steel substrates using low pressure radio-frequency capacitively coupled discharge (13.56 MHz) using methane mixed either with hydrogen or argon. A dc self-bias was induced by the rf discharge and accelerated the ions towards the substrates during the whole deposition process. Prior to the carbon film deposition and to improve the adhesion, the substrates were subject to plasma nitriding and coated with a silicon oxide layer using the same reactor. The deposited films were optically characterized (UV-IR) and by using a combination of Rutherford backscattering spectroscopy and elastic recoil detection the atomic composition was determined. The carbon films high hardness (~ 18 GPa) was assessed from indentation tests. Adhesion tests revealed critical loads up to 13.6 N for the carbon films deposited on steel substrates using silicon oxide interlayer. Friction coefficient varied from 0.02 against diamond and 0.23 against steel counterpart. The results suggest that hard carbon films can be deposited on steel substrate using a silicon oxide intermediate layer deposited by the same plasma process with commercial potential.

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More information

Accepted/In Press date: 2 April 2015
e-pub ahead of print date: 9 April 2015
Published date: 25 June 2015
Keywords: PECVD, DLC, amorphous carbon, hardness
Organisations: nCATS Group

Identifiers

Local EPrints ID: 376960
URI: http://eprints.soton.ac.uk/id/eprint/376960
DOI: doi:10.1016/j.surfcoat.2015.04.002
ISSN: 0257-8972
PURE UUID: 304594b7-99fb-40d9-9532-7658d7f0ee4a
ORCID for T. Polcar: ORCID iD orcid.org/0000-0002-0863-6287

Catalogue record

Date deposited: 18 May 2015 10:26
Last modified: 15 Mar 2024 03:40

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Contributors

Author: M.G. Muresan
Author: A.C. Cambell
Author: P. Ondracka
Author: V. Bursikova
Author: V. Perina
Author: T. Polcar ORCID iD
Author: S. Reuter
Author: M.U. Hammer
Author: M. Valtr
Author: L. Zajickova

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