Origin of Stick-Slip Motion in Boundary Lubrication
- 9 November 1990
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 250 (4982), 792-794
- https://doi.org/10.1126/science.250.4982.792
Abstract
Molecular dynamics simulations of atomically thin, fluid films confined between two solid plates are described. For a broad range of parameters, a generic stick-slip motion is observed, consistent with the results of recent boundary lubrication experiments. Static plates induce crystalline order in the film. Stick-slip motion involves periodic shear-melting transitions and recrystllization of the film. Uniform motion occurs at high velocities where the film no longer has time to order. These results indicate that the origin of stick-slip motion is thermodynamic instability of the sliding state, rather than a dynamic instability as usually assumed.Keywords
This publication has 13 references indexed in Scilit:
- Shear flow near solids: Epitaxial order and flow boundary conditionsPhysical Review A, 1990
- The origin of static friction in ultrathin liquid filmsLangmuir, 1990
- Tribology Studied Using Atomically Smooth SurfacesTribology Transactions, 1990
- Shear Forces in Molecularly Thin FilmsScience, 1989
- Dynamics of tip-substrate interactions in atomic force microscopySurface Science, 1989
- Molecular Tribometry of Ultrathin Liquid FilmsPhysical Review Letters, 1988
- Dynamic Properties of Molecularly Thin Liquid FilmsScience, 1988
- Shear-Induced MeltingPhysical Review Letters, 1981
- Observation of the Coupling of Concentration Fluctuations to Steady-State Shear FlowPhysical Review Letters, 1980
- Detailed studies of frictional sliding of granite and implications for the earthquake mechanismJournal of Geophysical Research, 1972