Formation of solid lubricants during high temperature tribology of silver-doped molybdenum nitride coatings deposited by dcMS and HIPIMS
Formation of solid lubricants during high temperature tribology of silver-doped molybdenum nitride coatings deposited by dcMS and HIPIMS
The coating system MoN-Ag is an interesting candidate for industrial applications as a low friction coating at elevated temperatures, due to the formation of lubricous molybdenum oxides and silver molybdates. Film deposition was performed by high-power impulse magnetron sputtering and direct current magnetron sputtering. To facilitate a future transfer to industry Mo-Ag composite targets have been sputtered in Ar/N2 atmosphere. The chemical composition of the deposited MoN-Ag films has been investigated by wavelength dispersive X-ray spectroscopy. Morphology and crystallographic phases of the films were studied by scanning electron microscopy and X-ray diffraction. To obtain film hardness in relation to Ag content and bias voltage, the instrumented indentation test was applied. Pin-on-disc tribological tests have been performed at room temperature and at high temperature (HT, 450 °C). Samples from HT tests have been analyzed by Raman measurements to identify possible molybdenum oxide and/or silver molybdate phases. At low Ag contents (≤7 at.%), coatings with a hardness of 18–31 GPa could be deposited. Friction coefficients at HT decreased with increasing Ag content. After these tests, Raman measurements revealed the MoO3 phase on all samples and the Ag2Mo4O13 phase for the highest Ag contents (~23–26 at.%).
PVD, HiPIMS, wear resistant coating, low friction coatings, tribology
Fenker, Martin
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Balzer, Martin
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Kellner, Sabine
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Polcar, Tomas
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Richter, Andreas
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Schmidl, Frank
e035b58d-dae0-4b37-ba8b-77ae98081619
Vitu, Tomas
88797aca-ef7c-4ef7-8dd0-913551b18f10
19 November 2021
Fenker, Martin
89c7cddb-2d12-4c9e-a4cd-6a38a51daf40
Balzer, Martin
496c2da6-5f04-4317-828e-f1ac426f20a1
Kellner, Sabine
c6715830-b998-4afb-ab43-f3b7a623df11
Polcar, Tomas
c669b663-3ba9-4e7b-9f97-8ef5655ac6d2
Richter, Andreas
477a6571-aea0-4e8b-9506-cc44f9a3b7cc
Schmidl, Frank
e035b58d-dae0-4b37-ba8b-77ae98081619
Vitu, Tomas
88797aca-ef7c-4ef7-8dd0-913551b18f10
Fenker, Martin, Balzer, Martin, Kellner, Sabine, Polcar, Tomas, Richter, Andreas, Schmidl, Frank and Vitu, Tomas
(2021)
Formation of solid lubricants during high temperature tribology of silver-doped molybdenum nitride coatings deposited by dcMS and HIPIMS.
Coatings, 11.
(doi:10.3390/coatings11111415).
Abstract
The coating system MoN-Ag is an interesting candidate for industrial applications as a low friction coating at elevated temperatures, due to the formation of lubricous molybdenum oxides and silver molybdates. Film deposition was performed by high-power impulse magnetron sputtering and direct current magnetron sputtering. To facilitate a future transfer to industry Mo-Ag composite targets have been sputtered in Ar/N2 atmosphere. The chemical composition of the deposited MoN-Ag films has been investigated by wavelength dispersive X-ray spectroscopy. Morphology and crystallographic phases of the films were studied by scanning electron microscopy and X-ray diffraction. To obtain film hardness in relation to Ag content and bias voltage, the instrumented indentation test was applied. Pin-on-disc tribological tests have been performed at room temperature and at high temperature (HT, 450 °C). Samples from HT tests have been analyzed by Raman measurements to identify possible molybdenum oxide and/or silver molybdate phases. At low Ag contents (≤7 at.%), coatings with a hardness of 18–31 GPa could be deposited. Friction coefficients at HT decreased with increasing Ag content. After these tests, Raman measurements revealed the MoO3 phase on all samples and the Ag2Mo4O13 phase for the highest Ag contents (~23–26 at.%).
Text
coatings-11-01415-v2
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Accepted/In Press date: 17 November 2021
Published date: 19 November 2021
Keywords:
PVD, HiPIMS, wear resistant coating, low friction coatings, tribology
Identifiers
Local EPrints ID: 454895
URI: http://eprints.soton.ac.uk/id/eprint/454895
ISSN: 2079-6412
PURE UUID: 3cb1d224-4e8b-40c5-803e-4b703265cd55
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Date deposited: 01 Mar 2022 17:40
Last modified: 17 Mar 2024 03:26
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Contributors
Author:
Martin Fenker
Author:
Martin Balzer
Author:
Sabine Kellner
Author:
Andreas Richter
Author:
Frank Schmidl
Author:
Tomas Vitu
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