Analysis of bearing lubrication under dynamic loading considering micropolar and cavitating effects

Xiao Li Wang; Jun Yan Zhang; Hui Dong

doi:10.1016/j.triboint.2011.05.002

Analysis of bearing lubrication under dynamic loading considering micropolar and cavitating effects

Xiao Li Wang^*, Jun Yan Zhang, Hui Dong

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

38 Citations (Scopus)

Abstract

Numerical computation of the dynamically loaded journal bearings lubricated with micropolar fluids is undertaken based on the improved Elord cavitation algorithm and over-relaxation method. The results show that the average inflow and average outflow based on the mass conservation boundary conditions are almost equal, which is in accordance with the fact. However, under the Reynolds boundary conditions, large difference is shown between the average inflow and outflow. It is also demonstrated that with the micropolar fluids lubrication, the minimum film thickness, bearing capacity and friction power loss are increased while the maximum film pressure is decreased.

Original language	English
Pages (from-to)	1071-1075
Number of pages	5
Journal	Tribology International
Volume	44
Issue number	9
DOIs	https://doi.org/10.1016/j.triboint.2011.05.002
Publication status	Published - Aug 2011

Keywords

Cavitation
Dynamically loaded journal bearing
Mass conservation boundary condition
Micropolar fluids

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10.1016/j.triboint.2011.05.002

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abstract = "Numerical computation of the dynamically loaded journal bearings lubricated with micropolar fluids is undertaken based on the improved Elord cavitation algorithm and over-relaxation method. The results show that the average inflow and average outflow based on the mass conservation boundary conditions are almost equal, which is in accordance with the fact. However, under the Reynolds boundary conditions, large difference is shown between the average inflow and outflow. It is also demonstrated that with the micropolar fluids lubrication, the minimum film thickness, bearing capacity and friction power loss are increased while the maximum film pressure is decreased.",

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AU - Wang, Xiao Li

AU - Zhang, Jun Yan

AU - Dong, Hui

PY - 2011/8

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N2 - Numerical computation of the dynamically loaded journal bearings lubricated with micropolar fluids is undertaken based on the improved Elord cavitation algorithm and over-relaxation method. The results show that the average inflow and average outflow based on the mass conservation boundary conditions are almost equal, which is in accordance with the fact. However, under the Reynolds boundary conditions, large difference is shown between the average inflow and outflow. It is also demonstrated that with the micropolar fluids lubrication, the minimum film thickness, bearing capacity and friction power loss are increased while the maximum film pressure is decreased.

AB - Numerical computation of the dynamically loaded journal bearings lubricated with micropolar fluids is undertaken based on the improved Elord cavitation algorithm and over-relaxation method. The results show that the average inflow and average outflow based on the mass conservation boundary conditions are almost equal, which is in accordance with the fact. However, under the Reynolds boundary conditions, large difference is shown between the average inflow and outflow. It is also demonstrated that with the micropolar fluids lubrication, the minimum film thickness, bearing capacity and friction power loss are increased while the maximum film pressure is decreased.

KW - Cavitation

KW - Dynamically loaded journal bearing

KW - Mass conservation boundary condition

KW - Micropolar fluids

UR - https://www.scopus.com/pages/publications/79957910381

U2 - 10.1016/j.triboint.2011.05.002

DO - 10.1016/j.triboint.2011.05.002

M3 - Article

AN - SCOPUS:79957910381

SN - 0301-679X

VL - 44

SP - 1071

EP - 1075

JO - Tribology International

JF - Tribology International

IS - 9

ER -

Analysis of bearing lubrication under dynamic loading considering micropolar and cavitating effects

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Keywords

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