A Deterministic Mixed Lubrication Model for Mechanical Seals-Reference-Cited by-同舟云学术

A Deterministic Mixed Lubrication Model for Mechanical Seals

Published:2011-10-01 Issue:4 Volume:133 Page:
ISSN:0742-4787
Container-title:Journal of Tribology
language:en
Short-container-title:

Author:

Minet Christophe,Brunetière Noël,Tournerie Bernard¹

Affiliation:

1. Institut Prime, CNRS - Université de Poitiers – ENSMA, UPR 3346, Département Génie Mécanique et Systèmes Complexes, SP2MI - Téléport 2, Boulevard Marie et Pierre Curie, BP 30179, F-86962 Futuroscope Chasseneuil, Cedex, France

Abstract

Mechanical seals are commonly used in industrial applications. The main purpose of these components is to ensure the sealing of rotating shafts. Their optimal point of operation is obtained at the boundary between the mixed and hydrodynamic lubrication regimes. However, papers focused on this particular aspect in face seals are rather scarce compared with those dealing with other popular sealing devices. The present study thus proposes a numerical flow model of mixed lubrication in mechanical face seals. It achieves this by evaluating the influence of roughness on the performance of the seal. The choice of a deterministic approach has been made, this being justified by a review of the literature. A numerical model for the generation of random rough surfaces has been used prior to the flow model in order to give an accurate description of the surface roughness. The model takes cavitation effects into account and considers Hertzian asperity contact. Results for the model, including Stribeck curves, are presented as a function of the duty parameter.

Publisher

ASME International

Subject

Surfaces, Coatings and Films,Surfaces and Interfaces,Mechanical Engineering,Mechanics of Materials

Link

http://asmedigitalcollection.asme.org/tribology/article-pdf/doi/10.1115/1.4005068/5516362/042203_1.pdf

Reference26 articles.

1. An Average Flow Model for Determining Effects of Three-Dimensional Roughness on Partial Hydrodynamic Lubrication;Patir;ASME, J Lub. Technol.

2. Application of Average Flow Model to Lubrication Between Rough Sliding Surfaces;Patir;ASME, J Lub. Technol.

3. Numerical Procedure for Random Generation Rough Surfaces;Patir;Wear

4. An Average Flow Model of Rough Surface Lubrication With Inter-Asperity Cavitation;Harp;ASME J. Tribol.

5. The Flow Factors Considering the Elastic Deformation for the Rough Surface With a Non Gaussian Height Distribution;Kim;Tribol. Trans.

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