Thermal–Hydrodynamic Behaviour of Coated Pivoted Pad Thrust Bearings: Comparison between Babbitt, PTFE and DLC

Thermal–Hydrodynamic Behaviour of Coated Pivoted Pad Thrust Bearings: Comparison between Babbitt, PTFE and DLC

The hydrodynamic lubrication and thermal analysis of tilting pad thrust bearings has been a major subject for many studies in the field of tribology. There is only a limited number of studies regarding thrust bearings with coated surfaces. The purpose of this study is to build a parametric, iterativ...

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Main Authors: Konstantinos Katsaros, Dimitrios A. Bompos, Pantelis G. Nikolakopoulos, Stephanos Theodossiades
Format: Article
Language:English
Published: MDPI AG 2018-05-01
Series:Lubricants
Subjects:
hydrodynamic lubrication
thermal effects
thrust bearing
Navier–Stokes
coating
Online Access:http://www.mdpi.com/2075-4442/6/2/50
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spelling doaj-7a232ad01633445caf318223ec0b7aa92020-11-24T20:51:24ZengMDPI AGLubricants2075-44422018-05-01625010.3390/lubricants6020050lubricants6020050Thermal–Hydrodynamic Behaviour of Coated Pivoted Pad Thrust Bearings: Comparison between Babbitt, PTFE and DLCKonstantinos Katsaros0Dimitrios A. Bompos1Pantelis G. Nikolakopoulos2Stephanos Theodossiades3Machine Design Laboratory, Department of Mechanical Engineering and Aeronautics, University of Patras, 26500 Patras, GreeceMachine Design Laboratory, Department of Mechanical Engineering and Aeronautics, University of Patras, 26500 Patras, GreeceMachine Design Laboratory, Department of Mechanical Engineering and Aeronautics, University of Patras, 26500 Patras, GreeceWolfson School of Mechanical, Electrical and Manufacturing Engineering, Loughborough University, Loughborough, Leicestershire LE11 3TU, UKThe hydrodynamic lubrication and thermal analysis of tilting pad thrust bearings has been a major subject for many studies in the field of tribology. There is only a limited number of studies regarding thrust bearings with coated surfaces. The purpose of this study is to build a parametric, iterative algorithm in order to perform a complete thermal and hydrodynamic lubrication analysis for pivoted pad thrust bearings with coatings. The analytical model is mainly based on the energy, continuity and Navier–Stokes equations, which are solved numerically with the Semi-Implicit Method for Pressure Linked Equations Consistent (SIMPLEC) method. The analysis focuses on a single pivoted pad of the thrust bearing. The thermal properties of the coating material are taken into account and the resulting thermal and flow fields are solved. The basic hydrodynamic and tribological characteristics are calculated for an uncoated, a Babbitt coated, a PTFE coated and a diamond like carbon (DLC) coated pivoted pad thrust bearing. The pressure and the film thickness distribution, as well as the load capacity and the frictional forces, are determined for several pad positions and velocities of the rotor. A mineral oil lubricant is used to estimate the shear thinning or thickening effects on the pad tribological performance. The results indicate that pads coated with PTFE and DLC show lower friction forces compared to the common steel and Babbitt applications. At the same time, the DLC coating seems to affect the bearing’s flow and thermal fields less than the PTFE, making it more suitable for thrust bearings applications.http://www.mdpi.com/2075-4442/6/2/50hydrodynamic lubricationthermal effectsthrust bearingNavier–Stokescoating
collection DOAJ
language English
format Article
sources DOAJ
author Konstantinos Katsaros
Dimitrios A. Bompos
Pantelis G. Nikolakopoulos
Stephanos Theodossiades
spellingShingle Konstantinos Katsaros
Dimitrios A. Bompos
Pantelis G. Nikolakopoulos
Stephanos Theodossiades
Thermal–Hydrodynamic Behaviour of Coated Pivoted Pad Thrust Bearings: Comparison between Babbitt, PTFE and DLC
Lubricants
hydrodynamic lubrication
thermal effects
thrust bearing
Navier–Stokes
coating
author_facet Konstantinos Katsaros
Dimitrios A. Bompos
Pantelis G. Nikolakopoulos
Stephanos Theodossiades
author_sort Konstantinos Katsaros
title Thermal–Hydrodynamic Behaviour of Coated Pivoted Pad Thrust Bearings: Comparison between Babbitt, PTFE and DLC
title_short Thermal–Hydrodynamic Behaviour of Coated Pivoted Pad Thrust Bearings: Comparison between Babbitt, PTFE and DLC
title_full Thermal–Hydrodynamic Behaviour of Coated Pivoted Pad Thrust Bearings: Comparison between Babbitt, PTFE and DLC
title_fullStr Thermal–Hydrodynamic Behaviour of Coated Pivoted Pad Thrust Bearings: Comparison between Babbitt, PTFE and DLC
title_full_unstemmed Thermal–Hydrodynamic Behaviour of Coated Pivoted Pad Thrust Bearings: Comparison between Babbitt, PTFE and DLC
title_sort thermal–hydrodynamic behaviour of coated pivoted pad thrust bearings: comparison between babbitt, ptfe and dlc
publisher MDPI AG
series Lubricants
issn 2075-4442
publishDate 2018-05-01
description The hydrodynamic lubrication and thermal analysis of tilting pad thrust bearings has been a major subject for many studies in the field of tribology. There is only a limited number of studies regarding thrust bearings with coated surfaces. The purpose of this study is to build a parametric, iterative algorithm in order to perform a complete thermal and hydrodynamic lubrication analysis for pivoted pad thrust bearings with coatings. The analytical model is mainly based on the energy, continuity and Navier–Stokes equations, which are solved numerically with the Semi-Implicit Method for Pressure Linked Equations Consistent (SIMPLEC) method. The analysis focuses on a single pivoted pad of the thrust bearing. The thermal properties of the coating material are taken into account and the resulting thermal and flow fields are solved. The basic hydrodynamic and tribological characteristics are calculated for an uncoated, a Babbitt coated, a PTFE coated and a diamond like carbon (DLC) coated pivoted pad thrust bearing. The pressure and the film thickness distribution, as well as the load capacity and the frictional forces, are determined for several pad positions and velocities of the rotor. A mineral oil lubricant is used to estimate the shear thinning or thickening effects on the pad tribological performance. The results indicate that pads coated with PTFE and DLC show lower friction forces compared to the common steel and Babbitt applications. At the same time, the DLC coating seems to affect the bearing’s flow and thermal fields less than the PTFE, making it more suitable for thrust bearings applications.
topic hydrodynamic lubrication
thermal effects
thrust bearing
Navier–Stokes
coating
url http://www.mdpi.com/2075-4442/6/2/50
work_keys_str_mv AT konstantinoskatsaros thermalhydrodynamicbehaviourofcoatedpivotedpadthrustbearingscomparisonbetweenbabbittptfeanddlc
AT dimitriosabompos thermalhydrodynamicbehaviourofcoatedpivotedpadthrustbearingscomparisonbetweenbabbittptfeanddlc
AT pantelisgnikolakopoulos thermalhydrodynamicbehaviourofcoatedpivotedpadthrustbearingscomparisonbetweenbabbittptfeanddlc
AT stephanostheodossiades thermalhydrodynamicbehaviourofcoatedpivotedpadthrustbearingscomparisonbetweenbabbittptfeanddlc
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