Issue 14, 2024

The mechanism of fluidity improvement of cement slurry by graphene oxide: a study on nanofriction

Abstract

Graphene oxide (GO) as a nano-reinforcing material has received extensive attention in cement composite materials. This paper employed molecular dynamics to simulate the friction process of calcium silicate hydrate (CSH) particles in the presence of double-sided and single-sided GCOOH (graphene oxide with a –COOH functional group, covering 10% of the surface). The investigation uncovered the lubricating effects of bifacial and unifacial GCOOH on the CSH interface. The findings indicate that the interfacial friction among CSH particles follows the sequence of double-sided GCOOH > pure CSH > single-sided GCOOH. In the double-sided GCOOH system, a greater external force is needed on the opposing side to alter the interaction with water molecules, calcium ions, and silica-oxygen tetrahedra, thereby enhancing friction. In contrast, the majority of the carboxyl groups on the single-sided GCOOH surface are strongly adsorbed onto the CSH surface, facilitating the entry of additional water molecules into the interlayer. Conversely, the unmodified side of the GCOOH has lower interactions with water molecules, hence improving its lubricating properties.

Graphical abstract: The mechanism of fluidity improvement of cement slurry by graphene oxide: a study on nanofriction

Article information

Article type
Paper
Submitted
06 Nov 2023
Accepted
07 Mar 2024
First published
20 Mar 2024

Phys. Chem. Chem. Phys., 2024,26, 10579-10588

The mechanism of fluidity improvement of cement slurry by graphene oxide: a study on nanofriction

X. Ji, D. Hou, M. Wang, L. Qing, F. Hong, Y. Wang, G. Fang, S. Hong and M. Li, Phys. Chem. Chem. Phys., 2024, 26, 10579 DOI: 10.1039/D3CP05374A

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