Effect of counterparts on the tribological properties of TiCN coatings with low carbon concentration in water lubrication
Effect of counterparts on the tribological properties of TiCN coatings with low carbon concentration in water lubrication
TiN and TiCN coatings have long been used for wear reduction in application like tooling, but there are other potential industrial applications in aqueous environments. Therefore, the current investigation explores the friction and wear compatibility of TiN and TiCN coatings against potential sliding partners in water. 316 L discs coated with TiN and TiCN (containing 2.46 at% C) slid against fixed balls of Al2O3, SiC, Si3N4, and SUS440C in water. In terms of mean steady-state friction coefficient, the ranking from low to high was: SiC<Si3N4<Al2O3<SUS440C regardless of coating type. It is proposed that due to lubrication by silica gel, the friction coefficients and wear rates of TiCN coatings against SiC and Si3N4 balls were lower than those against Al2O3 and SUS440C balls. For the TiCN/SUS440C tribopairs, tribo-oxidation occurred easily for SUS440C ball, and the oxides on the wear track caused the highest friction coefficient and the roughest wear surfaces. But wear of the TiCN/Al2O3 tribopairs, which had the highest wear rate of the coatings, was dominated by abrasion. In terms of the friction and wear behavior under water-lubricated test conditions, SiC was the most suitable counterpart for TiCN-coated stainless steel.
TiN(C) coatings, friction, wear, counterpart, water lubrication
356-362
Wang, Qianzhi
696b2954-9bbe-4e19-a9d2-22435e55d9b4
Zhou, Fei
aaf54725-aefa-4df9-a69c-07b3f60060fc
Gao, Song
ce173219-e257-4e4d-8e10-fe7ebd549595
Zhou, Zhifeng
fb070de3-bcb2-4923-9c60-e76b61f89f5f
Li, Lawrence Kwok-Yan
1be013ff-b4b7-4479-a8b6-08a515c967e6
Yan, Jiwang
5941b300-5771-4494-9bd0-bb932725d894
15 April 2015
Wang, Qianzhi
696b2954-9bbe-4e19-a9d2-22435e55d9b4
Zhou, Fei
aaf54725-aefa-4df9-a69c-07b3f60060fc
Gao, Song
ce173219-e257-4e4d-8e10-fe7ebd549595
Zhou, Zhifeng
fb070de3-bcb2-4923-9c60-e76b61f89f5f
Li, Lawrence Kwok-Yan
1be013ff-b4b7-4479-a8b6-08a515c967e6
Yan, Jiwang
5941b300-5771-4494-9bd0-bb932725d894
Wang, Qianzhi, Zhou, Fei, Gao, Song, Zhou, Zhifeng, Li, Lawrence Kwok-Yan and Yan, Jiwang
(2015)
Effect of counterparts on the tribological properties of TiCN coatings with low carbon concentration in water lubrication.
Wear, 328-329, .
(doi:10.1016/j.wear.2015.03.007).
Abstract
TiN and TiCN coatings have long been used for wear reduction in application like tooling, but there are other potential industrial applications in aqueous environments. Therefore, the current investigation explores the friction and wear compatibility of TiN and TiCN coatings against potential sliding partners in water. 316 L discs coated with TiN and TiCN (containing 2.46 at% C) slid against fixed balls of Al2O3, SiC, Si3N4, and SUS440C in water. In terms of mean steady-state friction coefficient, the ranking from low to high was: SiC<Si3N4<Al2O3<SUS440C regardless of coating type. It is proposed that due to lubrication by silica gel, the friction coefficients and wear rates of TiCN coatings against SiC and Si3N4 balls were lower than those against Al2O3 and SUS440C balls. For the TiCN/SUS440C tribopairs, tribo-oxidation occurred easily for SUS440C ball, and the oxides on the wear track caused the highest friction coefficient and the roughest wear surfaces. But wear of the TiCN/Al2O3 tribopairs, which had the highest wear rate of the coatings, was dominated by abrasion. In terms of the friction and wear behavior under water-lubricated test conditions, SiC was the most suitable counterpart for TiCN-coated stainless steel.
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Accepted/In Press date: 5 March 2015
e-pub ahead of print date: 13 March 2015
Published date: 15 April 2015
Keywords:
TiN(C) coatings, friction, wear, counterpart, water lubrication
Organisations:
nCATS Group
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Local EPrints ID: 377161
URI: http://eprints.soton.ac.uk/id/eprint/377161
ISSN: 0043-1648
PURE UUID: 6081b873-cfaf-4327-9b2f-fe3bd31ec1cc
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Date deposited: 27 May 2015 11:21
Last modified: 14 Mar 2024 19:57
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Author:
Qianzhi Wang
Author:
Fei Zhou
Author:
Song Gao
Author:
Zhifeng Zhou
Author:
Lawrence Kwok-Yan Li
Author:
Jiwang Yan
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