Authors: Naduvinamani, N. B.; Siddangouda, A.

Source: Tribology - Materials, Surfaces & Interfaces, Volume 1, Number 4, December 2007 , pp. 224-232(9)

Publisher: Maney Publishing

Abstract:

This paper describes the theoretical analysis of the effect of micropolar fluid on the lubrication characteristics of porous inclined stepped composite bearing. The lubricant with additives in the film region and also in the porous region is modelled as Eringen's micropolar fluid, which is characterised by the presence of suspended rigid particles with microstructures. The generalised Reynolds type equation is derived for the most general porous bearing configuration (porous composite bearings) lubricated with micropolar fluid. The closed form expressions are obtained for the fluid film pressure, load carrying capacity, frictional force and coefficient of friction. These expressions can be utilised to obtain the performance characteristics of four different bearing systems, namely, porous plane inclined slider, porous composite tapered land bearing, porous stepped bearing and composite porous tapered concave bearing. It is observed that the micropolar fluid lubricants provide an increased load carrying capacity and decreased coefficient of friction as compared to the corresponding Newtonian case.

Keywords: POROUS; MICROPOLAR FLUID; INCLINED STEPPED COMPOSITE BEARING

Document Type: Research Article

DOI: http://dx.doi.org/10.1179/175158408X317109

Publication date: 2007-12-01

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