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Volume 72, Issue 9
9 November 2020
Industrial Lubrication and Tribology Cover Image for Volume 72, Issue 9
Editors
Andreas Rosenkranz;
Andreas Rosenkranz
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Carsten Gachot
Carsten Gachot
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Research Article| September 22 2020

An analytical solution of Reynolds equation for evaluating the characteristics of surface textured bearing Available to Purchase

Yazhou Mao;
Yazhou Mao
School of Mechatronics Engineering,
Henan University of Science and Technology
, Luoyang,
China

Yazhou Mao is Student at the School of Mechatronics Engineering, Henan University of Science and Technology. He is pursuing PhD from the Henan University of Science and Technology. His research interests include tribology research of hydrodynamic journal bearing.

Yazhou Mao is the corresponding author and can be contacted at: myzlcc@163.com
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Yang Jianxi;
Yang Jianxi
School of Mechatronics Engineering,
Henan University of Science and Technology
, Luoyang,
China

Jianxi Yang is Vice-President, Professor and PhD supervisor at the School of Mechatronics Engineering, Henan University of Science and Technology. His research interests are bearing friction, wear and lubrication.

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Jinchen Ji;
Jinchen Ji
University of Technology Sydney
, Sydney,
Australia

Jinchen Ji is Associate Professor at the University of Technology Sydney. His research interests are nonlinear dynamics, vibration and control of mechanical systems.

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Wenjing Xu;
Wenjing Xu
Luoyang Railway Information Engineering School
, Luoyang,
China

Wenjing Xu is Assistant Professor at Luoyang Railway Information Engineering School. Her research interests are hydrodynamic journal bearing lubrication and friction performance.

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Quanyuan Guo
Quanyuan Guo
School of Mechatronics Engineering,
Henan University of Science and Technology
, Luoyang,
China

Quanyuan Guo is Assistant Professor at the School of Mechatronics Engineering, Henan University of Science and Technology. His research interests include the bearing design and manufacture.

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Author & Article Information
Yazhou Mao is the corresponding author and can be contacted at: myzlcc@163.com
Publisher: Emerald Publishing
Received: September 20 2019
Revision Received: January 11 2020
Revision Received: May 01 2020
Revision Received: June 04 2020
Accepted: July 04 2020
Online ISSN: 1758-5775
Print ISSN: 0036-8792
© Emerald Publishing Limited
2020
Emerald Publishing Limited
Licensed re-use rights only
Industrial Lubrication and Tribology (2020) 72 (9): 1075–1085.
https://doi.org/10.1108/ILT-09-2019-0378
Article history
Received:
September 20 2019
Revision Received:
January 11 2020
Revision Received:
May 01 2020
Revision Received:
June 04 2020
Accepted:
July 04 2020
Purpose

Currently, there is a lack of fast and highly accurate on analytical solution of Reynolds equation for evaluating the characteristics of surface textured bearing. This paper aims to develop such an analytical solution of Reynolds equation for an effective analysis of the characteristics of surface textured bearings.

Design/methodology/approach

By using the separation of variables method and mean eigenvalue method, the analytical solution is constructed. The CFD simulations and experimental results are used to validate the correctness of the analytical solution.

Findings

The analytical solution can accurately evaluate the characteristics of textured bearings. It is found that the larger the eccentricity ratio and aspect ratio, the greater the oil film force. It also found that the smaller the eccentricity ratio, the larger the Sommerfeld number S. When eccentricity ratio e = 0.65, the attitude angles of different oil boundaries are same. The effect of different aspect ratios on dynamic stiffness and damping coefficient generally follows a same trend. It is numerically shown that the critical speed of rotor-bearing is 3500 rpm.

Originality/value

The analytical solution provides a simple yet effective way to study the characteristics of surface textured bearings.

Keywords:
Analytical solution, Characteristics, Reynolds equation, Surface textured bearing, Separation of variables method
© Emerald Publishing Limited
2020
Emerald Publishing Limited
Licensed re-use rights only
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