The effectsof the total bearing deformation on the performance of hydrodynamic thrust bearings

No Thumbnail Available

Date

2010

Authors

Journal Title

Journal ISSN

Volume Title

Publisher

Emerald Group Publishing

Abstract

Purpose - The purpose of this paper is to study the effects of the total bearing deformation on the performance of hydrodynamic thrust bearings. Design/methodology/approach - Pressure distribution in the thrust bearing has been obtained using the Reynolds equation for the case of stable lubricant viscosity and isothermal conditions. Then, the deformation is found out by applying the constitutive equations for the linear elastic materials to both pad and runner. For the purpose of the generalization of the results, it is preferred to examine the case using non-dimensional equations. The lubricant film thickness and pressure distribution before and after the deformation, the bearing deformation and the thrust load-carrying capacity have been computed and compared for the steel runner-steel pad and the steel runner-bronze pad material pairs. Findings - It is found that maximum load capacity loss occurs in the steel runner-bronze pad pair as 3.03 per cent. Also, for a fixed load, when bearing dimensions are small, but deformations are large, the capacity loss due to runner deformations is nearly of the same order as those caused by pad deformations. Practical implications - For small bearings heavily loaded, both pad and runner deformations should be taken into account. Originality/value - In the relevant literature, there exist some papers, which consider the deformability of only one part of a thrust bearing. This paper differs from the previous ones in that the effects of the deformations of both pad and runner are taken into account in evaluating the performance of a thrust bearing.

Description

Keywords

Bearings, Deformation, Hydrodynamics, System, Dynamics, Shaft, Engineering, Bearings (structural), Bronze, Constitutive equations, Deformation, Fluid dynamics, Hydrodynamics, Pressure distribution, Reynolds equation, Bearing deformation, Before and after, Capacity loss, Deformability, Design/methodology/approach, Isothermal conditions, Linear elastic material, Lubricant film thickness, Lubricant viscosity, Maximum load capacity, Non-dimensional equations, Pad deformation, Pad material, Thrust loads, Thrust bearings

Citation

Karadere, G. (2010). "The effectsof the total bearing deformation on the performance of hydrodynamic thrust bearings". Industrial Lubrication and Tribology, 62(4), 207-213.