Diverse electrodeposits from modified acid sulphate (Watts nickel) baths
Diverse electrodeposits from modified acid sulphate (Watts nickel) baths
A diverse range of nickel-based coatings can be cathodically deposited from a classical Watts electroplating bath containing suitable additives by appropriate control over operational conditions. Modern nickel-based electrodeposits are concisely reviewed and can be seen to be longer-term developments from the publication of optimised conditions for rapid nickel plating from an acid sulphate bath by Watts 100 years ago, in 1916. Recent examples of tribological nickel electrodeposits are illustrated by examples from the authors’ laboratory: (i) low friction, hard, wear resistant surfaces (containing 2-D, layered, self-lubricating particles of Ni–P–MoS2), (ii) superhydrophobic layers of Ni–WS2, showing a lotus petal effect (for self-cleaning surfaces), (iii) light emitting, luminescent signal bearing surfaces of Ni–BAM (BaMgAl11O17:Eu2+) metal oxide, (providing an in-situ phosphor wear tracer) and (iv) nanocrystalline surfaces of Ni, Co, Ni–Co and Ni–Co–P (including high surface area electrocatalysts). Important trends in the deployment of the longstanding, versatile Watts nickel electroplating bath are seen to include the development of (a) surfaces having tailored structure, hence special properties, by choice of bath composition and operational conditions, (b) nanostructured composite layers containing mixed inclusions and (c) layers able to diagnose in-service wear and provide an output signal. Subject areas needing further research are suggested.
274-282
Wang, Shuncai
8a390e2d-6552-4c7c-a88f-25bf9d6986a6
Zhou, Nan
f9796c96-e7ef-49a8-a07a-757aa042bb76
Walsh, Frank
309528e7-062e-439b-af40-9309bc91efb2
Wang, Shuncai
8a390e2d-6552-4c7c-a88f-25bf9d6986a6
Zhou, Nan
f9796c96-e7ef-49a8-a07a-757aa042bb76
Walsh, Frank
309528e7-062e-439b-af40-9309bc91efb2
Wang, Shuncai, Zhou, Nan and Walsh, Frank
(2016)
Diverse electrodeposits from modified acid sulphate (Watts nickel) baths.
Transactions of the IMF, 94 (5), .
(doi:10.1080/00202967.2016.1208383).
Abstract
A diverse range of nickel-based coatings can be cathodically deposited from a classical Watts electroplating bath containing suitable additives by appropriate control over operational conditions. Modern nickel-based electrodeposits are concisely reviewed and can be seen to be longer-term developments from the publication of optimised conditions for rapid nickel plating from an acid sulphate bath by Watts 100 years ago, in 1916. Recent examples of tribological nickel electrodeposits are illustrated by examples from the authors’ laboratory: (i) low friction, hard, wear resistant surfaces (containing 2-D, layered, self-lubricating particles of Ni–P–MoS2), (ii) superhydrophobic layers of Ni–WS2, showing a lotus petal effect (for self-cleaning surfaces), (iii) light emitting, luminescent signal bearing surfaces of Ni–BAM (BaMgAl11O17:Eu2+) metal oxide, (providing an in-situ phosphor wear tracer) and (iv) nanocrystalline surfaces of Ni, Co, Ni–Co and Ni–Co–P (including high surface area electrocatalysts). Important trends in the deployment of the longstanding, versatile Watts nickel electroplating bath are seen to include the development of (a) surfaces having tailored structure, hence special properties, by choice of bath composition and operational conditions, (b) nanostructured composite layers containing mixed inclusions and (c) layers able to diagnose in-service wear and provide an output signal. Subject areas needing further research are suggested.
Text
Revised TIMF1109 Advanced Ni composite electrodeposits.docx
- Accepted Manuscript
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Accepted/In Press date: 23 June 2016
e-pub ahead of print date: 3 September 2016
Organisations:
nCATS Group
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Local EPrints ID: 405596
URI: http://eprints.soton.ac.uk/id/eprint/405596
ISSN: 0020-2967
PURE UUID: 37ae9059-38a6-4ce7-b51f-158a80924ae7
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Date deposited: 08 Feb 2017 13:59
Last modified: 15 Mar 2024 06:18
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Author:
Nan Zhou
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