Theoretical and experimental research on the micro interface lubrication regime of water lubricated bearing

The paper aims to reveal the micro interface lubrication regimes of water lubricated bearing. Typical micro cavities are explored through computational fluid dynamic analysis. Streamline, pressure, eddy viscosity and kinetic energy distribution are obtained in the micro cavities. Influences of operating conditions and dimensionless structural parameters on fluid features are explored with detailed information. Velocity vectors as well as pressure contours are acquired inside the cavity. Analysis elaborates the micro interface lubrication mechanisms as well as the changing rules of lubrication performances with structural parameters for the cavity. Experimental data verifies the correctness of the lubrication model and the lubrication regimes. The micro interface lubrication mechanisms are revealed and they apply to bearings with different dimensions. Research results lay solid foundation for further optimal design of surface topography of such bearings. (c) 2020 Elsevier Ltd. All rights reserved.

Automated summary

This paper aims to reveal the micro interface lubrication regimes of water lubricated bearings through computational fluid dynamic analysis. The influences of operating conditions and dimensionless structural parameters on fluid features are explored, and experimental data verifies the correctness of the lubrication model. The research results lay a solid foundation for further optimal design of such bearings.