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Review Article | Open Access

Water lubrication of graphene oxide-based materials

Shaoqing XUE1,2Hanglin LI1,3Yumei GUO1Baohua ZHANG2Jiusheng LI1Xiangqiong ZENG1( )
Laboratory for Advanced Lubricating Materials, Shanghai Advanced Research Institute, Chinese Academy of Sciences, University of Chinese Academy of Sciences, Shanghai 201210, China
School of Environmental and Chemical Engineering, Shanghai University, Shanghai 200444, China
Key Laboratory for Advanced Materials, School of Chemistry and Molecular Engineering, East China University of Science and Technology, Shanghai 200237, China
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Abstract

Water is as an economic, eco-friendly, and efficient lubricant that has gained widespread attention for manufacturing. Using graphene oxide (GO)-based materials can improve the lubricant efficacy of water lubrication due to their outstanding mechanical properties, water dispersibility, and broad application scenarios. In this review, we offer a brief introduction about the background of water lubrication and GO. Subsequently, the synthesis, structure, and lubrication theory of GO are analyzed. Particular attention is focused on the relationship between pH, concentration, and lubrication efficacy when discussing the tribology behaviors of pristine GO. By compounding or reacting GO with various modifiers, amounts of GO-composites are synthesized and applied as lubricant additives or into frictional pairs for different usage scenarios. These various strategies of GO-composite generate interesting effects on the tribology behaviors. Several application cases of GO-based materials are described in water lubrication, including metal processing and bio-lubrication. The advantages and drawbacks of GO-composites are then discussed. The development of GO-based materials for water lubrication is described including some challenges.

Keywords

tribologywater lubricationgraphene oxide (GO)

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Friction
Volume 10 Issue 7,
July 2022
Pages 977-1004
DOI: 10.1007/s40544-021-0539-8

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Cite this article:
XUE S, LI H, GUO Y, et al. Water lubrication of graphene oxide-based materials. Friction, 2022, 10(7): 977-1004. https://doi.org/10.1007/s40544-021-0539-8

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Received: 19 March 2021
Revised: 10 June 2021
Accepted: 04 July 2021
Published: 28 August 2021
© The author(s) 2021.

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