论文信息 - Inertia effects in circular squeeze film bearing using Herschel–Bulkley lubricants

Inertia effects in circular squeeze film bearing using Herschel–Bulkley lubricants

Abstract Recent engineering trends in lubrication emphasize that in order to analyze the performance of bearings adequately, it is necessary to take into account the combined effects of fluid inertia forces and non-Newtonian characteristics of lubricants. In the present work, the effects of fluid inertia forces in the circular squeeze film bearing lubricated with Herschel–Bulkley fluids with constant squeeze motion have been investigated. Herschel–Bulkley fluids are characterized by an yield value which leads to the formation of a rigid core in the flow region. The shape and extent of the core formation along the radial direction is determined numerically for various values of Herschel–Bulkley number and power-law index. The bearing performances such as pressure distribution and load capacity for different values of Herschel–Bulkley number, Reynolds number, power-law index have been computed. The effects of fluid inertia and non-Newtonian characteristics on the bearing performances have been discussed.

K. P. Vishwanath | A. Kandasamy | A. Kandasamy

[1] Andreas N. Alexandrou,et al. Steady Herschel–Bulkley fluid flow in three-dimensional expansions , 2001 .

[2] David K. Gartling,et al. A numerical simulation of a plastic fluid in a parallel-plate plastometer , 1984 .

[3] G. Meeten. Flow of soft solids squeezed between planar and spherical surfaces , 2005 .

[4] Brian J. Briscoe,et al. A finite element analysis of the squeeze flow of an elasto-viscoplastic paste material , 1997 .

[5] The Effects of Fluid Inertia Forces in Squeeze Film Bearings Lubricated with Pseudo-plastic Fluids : 2nd Report, Annular Pavallel Plates Squeeze Film Bearings , 1986 .

[6] B. R. Stanmore,et al. Use of the parallel-plate plastometer for the characterisation of viscous fluids with a yield stress , 1981 .

[7] D. Baird,et al. An evaluation of a squeeze flow rheometer for the rheological characterization of a filled polymer with a yield stress , 2002 .

[8] Roger I. Tanner,et al. Numerical study of the Bingham squeeze film problem , 1984 .

[9] T. Q. Jiang,et al. An analytical solution of radial flow of a bingham fluid between two fixed circular disks , 1987 .

[10] Jing Zhang,et al. Three‐dimensional lubrication flow of a Herschel–Bulkley fluid , 2006 .

[11] Inertia effects in rheodynamic lubrication of a squeeze film bearing , 1989 .

[12] J. Sherwood,et al. Squeeze-flow of a Herschel–Bulkley fluid , 1998 .