Effect of annealing temperature on microstructure, mechanical and tribological properties of nano-SiC reinforced Ni-P coatings
Effect of annealing temperature on microstructure, mechanical and tribological properties of nano-SiC reinforced Ni-P coatings
The tribological properties of Ni-P/SiC nanocomposite coatings annealed at different temperatures (350–500 °C) were investigated in order to determine the optimal temperature needed to enhance their wear resistance as well as to reveal the underlying wear mechanisms. With increasing annealing temperature, the hardness of the annealed coatings gradually decreased from 8.2±0.5 to 7.1±0.6 GPa as a result of the Hall-Petch effect, nevertheless these values obtained were constantly higher than that of the as-plated coating (6.3±0.3 GPa) due to the formation of a hard Ni3P phase. Regarding to tribological properties, the Ni-P/SiC coating annealed at 350 °C presented a poorer wear resistance (6.1×10-5 mm3/Nm) compared to the as-plated coating (3.9×10-5 mm3/Nm) owing to a rougher original contact surface and the subsequent generation of nickel and iron oxides on the wear track. In contrast, coatings annealed at temperatures ranging between 400–500 °C exhibited the improved wear resistance (4.3×10-5 – 7.8×10-6 mm3/Nm) attributable to their smoother surfaces and to the lubrication effect of H3PO4 arising from the tribochemical reaction between Ni3P and the environment. Overall, the Ni-P/SiC coating annealed at 500 °C containing the largest amount of Ni3P exhibited the lowest friction coefficient (0.51) and wear rate (7.8×10-6 mm3/Nm).
nickel-phosphorus, sic, electroplating, tribology, annealing
86-93
Wang, Qianzhi
696b2954-9bbe-4e19-a9d2-22435e55d9b4
Callisti, Mauro
86e03724-aacc-46d5-bccc-4c7025556667
Greer, Jake
7afd01fe-6450-4bc7-a9eb-716bb4aa0ca6
McKay, Brian
19f164ad-59d8-494e-ae69-c351872dee48
Kosanovic Milickovic, Tatjana
03e58bcb-8a3f-4d1a-88b3-1d7d14be1e90
Zoikis-Karathanasis, Alexandros
fb5d6a0a-7850-4216-8e38-0ca45fb388c7
Deligkiozi, Ioanna
ed8de999-2254-42bd-8557-bd68f575e79b
Polcar, Tomas
c669b663-3ba9-4e7b-9f97-8ef5655ac6d2
15 June 2016
Wang, Qianzhi
696b2954-9bbe-4e19-a9d2-22435e55d9b4
Callisti, Mauro
86e03724-aacc-46d5-bccc-4c7025556667
Greer, Jake
7afd01fe-6450-4bc7-a9eb-716bb4aa0ca6
McKay, Brian
19f164ad-59d8-494e-ae69-c351872dee48
Kosanovic Milickovic, Tatjana
03e58bcb-8a3f-4d1a-88b3-1d7d14be1e90
Zoikis-Karathanasis, Alexandros
fb5d6a0a-7850-4216-8e38-0ca45fb388c7
Deligkiozi, Ioanna
ed8de999-2254-42bd-8557-bd68f575e79b
Polcar, Tomas
c669b663-3ba9-4e7b-9f97-8ef5655ac6d2
Wang, Qianzhi, Callisti, Mauro, Greer, Jake, McKay, Brian, Kosanovic Milickovic, Tatjana, Zoikis-Karathanasis, Alexandros, Deligkiozi, Ioanna and Polcar, Tomas
(2016)
Effect of annealing temperature on microstructure, mechanical and tribological properties of nano-SiC reinforced Ni-P coatings.
Wear, 356-357, .
(doi:10.1016/j.wear.2016.03.011).
Abstract
The tribological properties of Ni-P/SiC nanocomposite coatings annealed at different temperatures (350–500 °C) were investigated in order to determine the optimal temperature needed to enhance their wear resistance as well as to reveal the underlying wear mechanisms. With increasing annealing temperature, the hardness of the annealed coatings gradually decreased from 8.2±0.5 to 7.1±0.6 GPa as a result of the Hall-Petch effect, nevertheless these values obtained were constantly higher than that of the as-plated coating (6.3±0.3 GPa) due to the formation of a hard Ni3P phase. Regarding to tribological properties, the Ni-P/SiC coating annealed at 350 °C presented a poorer wear resistance (6.1×10-5 mm3/Nm) compared to the as-plated coating (3.9×10-5 mm3/Nm) owing to a rougher original contact surface and the subsequent generation of nickel and iron oxides on the wear track. In contrast, coatings annealed at temperatures ranging between 400–500 °C exhibited the improved wear resistance (4.3×10-5 – 7.8×10-6 mm3/Nm) attributable to their smoother surfaces and to the lubrication effect of H3PO4 arising from the tribochemical reaction between Ni3P and the environment. Overall, the Ni-P/SiC coating annealed at 500 °C containing the largest amount of Ni3P exhibited the lowest friction coefficient (0.51) and wear rate (7.8×10-6 mm3/Nm).
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Accepted/In Press date: 12 March 2016
e-pub ahead of print date: 18 March 2016
Published date: 15 June 2016
Keywords:
nickel-phosphorus, sic, electroplating, tribology, annealing
Organisations:
nCATS Group
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Local EPrints ID: 392019
URI: http://eprints.soton.ac.uk/id/eprint/392019
ISSN: 0043-1648
PURE UUID: f02f9f47-0415-4808-a11e-7896d0d2c515
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Date deposited: 13 Apr 2016 14:25
Last modified: 15 Mar 2024 05:29
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Author:
Qianzhi Wang
Author:
Mauro Callisti
Author:
Jake Greer
Author:
Brian McKay
Author:
Tatjana Kosanovic Milickovic
Author:
Alexandros Zoikis-Karathanasis
Author:
Ioanna Deligkiozi
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