Issue 48, 2023, Issue in Progress

Calculating shear viscosity with confined non-equilibrium molecular dynamics: a case study on hematite – PAO-2 lubricant

Abstract

The behaviour of confined lubricants at the atomic scale as affected by the interactions at the surface–lubricant interface is relevant in a range of technological applications in areas such as the automotive industry. In this paper, by performing fully atomistic molecular dynamics, we investigate the regime where the viscosity starts to deviate from the bulk behaviour, a topic of great practical and scientific relevance. The simulations consist of setting up a shear flow by confining the lubricant between iron oxide surfaces. By using confined Non-Equilibrium Molecular Dynamics (NEMD) simulations at a pressure range of 0.1–1.0 GPa at 100 °C, we demonstrate that the film thickness of the fluid affects the behaviour of viscosity. We find that by increasing the number of lubricant molecules, we approach the viscosity value of the bulk fluid derived from previously published NEMD simulations for the same system. These changes in viscosity occurred at film thicknesses ranging from 10.12 to 55.93 Å. The viscosity deviations at different pressures between the system with the greatest number of lubricant molecules and the bulk simulations varied from −16% to 41%. The choice of the utilized force field for treating the atomic interactions was also investigated.

Graphical abstract: Calculating shear viscosity with confined non-equilibrium molecular dynamics: a case study on hematite – PAO-2 lubricant

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Article information

Article type
Paper
Submitted
11 Oct 2023
Accepted
08 Nov 2023
First published
21 Nov 2023
This article is Open Access
Creative Commons BY license

RSC Adv., 2023,13, 33994-34002

Calculating shear viscosity with confined non-equilibrium molecular dynamics: a case study on hematite – PAO-2 lubricant

D. Mathas, D. Sarpa, W. Holweger, M. Wolf, C. Bohnert, V. Bakolas, J. Procelewska, J. Franke, P. Rödel and C. Skylaris, RSC Adv., 2023, 13, 33994 DOI: 10.1039/D3RA06929J

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