2016
DOI: 10.1063/1.4965829
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Non-equilibrium phase behavior and friction of confined molecular films under shear: A non-equilibrium molecular dynamics study

Abstract: The phase behavior of a confined liquid at high pressure and shear rate, such as is found in elastohydrodynamic lubrication, can influence the traction characteristics in machine operation.Generic aspects of this behavior are investigated here using Non-equilibrium Molecular Dynamics (NEMD) simulations of confined Lennard-Jones (LJ) films under load with a recently proposed wall-driven shearing method without wall atom tethering [Gattinoni, Maćkowiak, Heyes, Brańka and Dini, Phys. Rev. E 90, 043302 (2014)]. … Show more

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Cited by 29 publications
(67 citation statements)
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References 89 publications
(101 reference statements)
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“…In these simulations, only the first one or two layers of fluid were "locked" to the surface (due to strong wall interaction) and the rest of the fluid was sheared. This is distinct from the shear localisation behaviour observed in the high pressure NEMD simulations described above [186][187][188] where the "unsheared" region extends well beyond the direct influence of the wall atoms. Subsequent confined NEMD simulations of L−J fluids between one crystalline and one amorphous wall by Butler and Harrowell [190][191][192], L−J glasses (mixture of different sized L−J atoms to frustrate crystallization) by Varnik et al [193], as well as L−J glasses and amorphous polymers by Rottler and Robbins [194] have shown various forms of shear localisation.…”
Section: Shear Localisationcontrasting
confidence: 55%
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“…In these simulations, only the first one or two layers of fluid were "locked" to the surface (due to strong wall interaction) and the rest of the fluid was sheared. This is distinct from the shear localisation behaviour observed in the high pressure NEMD simulations described above [186][187][188] where the "unsheared" region extends well beyond the direct influence of the wall atoms. Subsequent confined NEMD simulations of L−J fluids between one crystalline and one amorphous wall by Butler and Harrowell [190][191][192], L−J glasses (mixture of different sized L−J atoms to frustrate crystallization) by Varnik et al [193], as well as L−J glasses and amorphous polymers by Rottler and Robbins [194] have shown various forms of shear localisation.…”
Section: Shear Localisationcontrasting
confidence: 55%
“…4). As the shear rate is increased in the CL region, the central liquid region widens until eventually a Couette profile is recovered [186][187][188]. Under the lowest shear rates studied, stick-slip friction behaviour was observed due to the commensurability of the walls and the solid-like fluid [188].…”
Section: Shear Localisationmentioning
confidence: 92%
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