Two-scale homogenization of hydrodynamic lubrication in a mechanical seal with isotropic roughness based on the Elrod cavitation algorithm

Author:

Han Yanxiang12ORCID,Meng Qingen2,de Boer Gregory2ORCID

Affiliation:

1. School of Mechanical Engineering, Jiangsu University, China

2. School of Mechanical Engineering, University of Leeds, UK

Abstract

A two-scale homogenization method for modelling the hydrodynamic lubrication of mechanical seals with isotropic roughness was developed and presented the influence of surface topography coupled into the lubricating domain. A linearization approach was derived to link the effects of surface topography across disparate scales. Solutions were calculated in a polar coordinate system derived based on the Elrod cavitation algorithm and were determined using homogenization of periodic simulations describing the lubrication of a series of surface topographical features. Solutions obtained for the hydrodynamic lubrication regime showed that the two-scale homogenization approach agreed well with lubrication theory in the case without topography. Varying topography amplitude demonstrated that the presence of surface topography improved tribological performance for a mechanical seal in terms of increasing load-carrying capacity and reducing friction coefficient in the radial direction. A Stribeck curve analysis was conducted, which indicated that including surface topography led to an increase in load-carrying capacity and a reduction in friction. A study of macro-scale surface waviness showed that the micro-scale variations observed were smaller in magnitude but cannot be obtained without the two-scale method and cause significant changes in the tribological performance.

Funder

Jiangsu University

Jiangsu Provincial Government

Publisher

SAGE Publications

Subject

Surfaces, Coatings and Films,Surfaces and Interfaces,Mechanical Engineering

Reference27 articles.

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2. Jakobsson B, Floberg L. The Finite Journal Bearing, Considering Vaporization; p.190, Gumperts Förlag: Göteborg, Sweden, 1957.

3. Olsson K-O. Cavitation in Dynamically Loaded Bearings; p.308, Scandinavian University Books: Göteborg, Sweden, 1965.

4. A Multiscale Approach to the Mixed Lubrication Regime: Application to Mechanical Seals

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