Graphene as a lubricant additive for reducing friction and wear in its liquid-based form
Graphene as a lubricant additive for reducing friction and wear in its liquid-based form
Graphene is a single atomic plane of sp2 -bound carbon that has attracted considerable interest in various technologies. On the basis of its unique physical, mechanical, and chemical properties, graphene is a potentially strong candidate as a lubricant additive in its liquid-based form to reduce friction and protect surfaces from degrading. Furthermore, graphene on wear performance acts as a heat dissipation source for liquid lubricants. This review explores and addresses the fundamental mechanisms illuminating the exceptional tribological behaviours of graphene family materials and their limitations. Although graphene additives were reported to improve friction coefficients and wear properties, several challenges remain a hindrance, such as production costs, dispersion stability, and lack of information regarding graphene optimisation. Thus, this review can provide a standard methodological framework for graphene additives in improving tribological performance. Moreover, this review provides an up-to-date review of current tribological experiments based on ultrafine particles incorporated with graphene as an additive for lubricating liquids.
graphene, lubricant, tribology, lubricating liquid-based, anti-wear, additive lubricant, tribology performance
Marlinda, Ab Rahman
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Thien, Gregory Soon How
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Shahid, Mehmood
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Ling, Ting Yang
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Hashem, Abu
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Chan, Kah-Yoong
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Johan, Mohd Rafie
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January 2023
Marlinda, Ab Rahman
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Thien, Gregory Soon How
ea51ef5c-d1cd-452b-88b8-d40513142cec
Shahid, Mehmood
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Ling, Ting Yang
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Hashem, Abu
31934f5a-92c1-4703-9c1e-7a4c8fbcc45f
Chan, Kah-Yoong
d667b880-7b93-430b-ac35-5c1774b7b6d0
Johan, Mohd Rafie
a86dd091-2f11-4d16-9d6d-69151006f308
Marlinda, Ab Rahman, Thien, Gregory Soon How, Shahid, Mehmood, Ling, Ting Yang, Hashem, Abu, Chan, Kah-Yoong and Johan, Mohd Rafie
(2023)
Graphene as a lubricant additive for reducing friction and wear in its liquid-based form.
Lubricants, 11 (1), [29].
(doi:10.3390/lubricants11010029).
Abstract
Graphene is a single atomic plane of sp2 -bound carbon that has attracted considerable interest in various technologies. On the basis of its unique physical, mechanical, and chemical properties, graphene is a potentially strong candidate as a lubricant additive in its liquid-based form to reduce friction and protect surfaces from degrading. Furthermore, graphene on wear performance acts as a heat dissipation source for liquid lubricants. This review explores and addresses the fundamental mechanisms illuminating the exceptional tribological behaviours of graphene family materials and their limitations. Although graphene additives were reported to improve friction coefficients and wear properties, several challenges remain a hindrance, such as production costs, dispersion stability, and lack of information regarding graphene optimisation. Thus, this review can provide a standard methodological framework for graphene additives in improving tribological performance. Moreover, this review provides an up-to-date review of current tribological experiments based on ultrafine particles incorporated with graphene as an additive for lubricating liquids.
Text
lubricants-11-00029-v2
- Version of Record
More information
Accepted/In Press date: 10 January 2023
e-pub ahead of print date: 11 January 2023
Published date: January 2023
Additional Information:
Funding Information:
We acknowledge the Ministry of Higher Education (MoHE) Malaysia (PR003-2022) and University of Malaya for providing financial support through the Research University grant (ST045-2021).
Publisher Copyright:
© 2023 by the authors.
Keywords:
graphene, lubricant, tribology, lubricating liquid-based, anti-wear, additive lubricant, tribology performance
Identifiers
Local EPrints ID: 485864
URI: http://eprints.soton.ac.uk/id/eprint/485864
ISSN: 2075-4442
PURE UUID: f75856ee-cdad-48f0-b0a0-f1a5e8794f18
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Date deposited: 03 Jan 2024 16:30
Last modified: 17 Mar 2024 06:33
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Contributors
Author:
Ab Rahman Marlinda
Author:
Gregory Soon How Thien
Author:
Mehmood Shahid
Author:
Ting Yang Ling
Author:
Abu Hashem
Author:
Kah-Yoong Chan
Author:
Mohd Rafie Johan
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