Surface layer analysis of helical grooved journal bearings after abrasive tests

Hydrodynamic bearings can suffer from serious damage when operating in contaminated environments or under starved lubrication conditions. In such situations, hydrodynamic journal bearings with helical groove are less sensitive to damage compared with plain bearings. Contaminants are removed from con...

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Bibliographic Details
Published inWear Vol. 448-449; p. 203233
Main Authors Sep, Jaroslaw, Galda, Lidia, Oliwa, Rafał, Dudek, Kazimiera
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 15.05.2020
Elsevier Science Ltd
Subjects
Abrasive test
Abrasive wear
Aluminum oxide
Contaminant
Contaminants
Damage
Grooved journal bearings
Grooves
Journal bearings
Plain bearings
Residual stress
Surface layer
Surface layers
Wear mechanisms
Wear tests
Abrasive test
Grooved journal bearings
Contaminant
Surface layer
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Summary:Hydrodynamic bearings can suffer from serious damage when operating in contaminated environments or under starved lubrication conditions. In such situations, hydrodynamic journal bearings with helical groove are less sensitive to damage compared with plain bearings. Contaminants are removed from contact zones by the helical groove on journal surface. The goal of this study is to clarify the wear mechanisms of journal bearings with helical groove on journal surface. Microscopic observations were made and residual stresses were measured to analyse the surface layer after abrasive wear tests. The surface of a smooth journal bearing deteriorated more extensively after the abrasive wear tests when compared with a grooved journal bearing. It was found that much more particles of Al2O3 were embedded in the soft material of the bearing that co-acted with smooth journal. The concentration of Al2O3 was reduced by groove on the journal surface, allowing contaminants to move out of the bearing clearance before they penetrate into material. •Particles of Al2O3 were embedded in soft bearing surface and scratched the journal.•Al2O3 particles were removed from bearing clearance by groove before they penetrate material.•Dominant wear mechanism of smooth journal bearing was the two-body abrasion.•Residual stresses state and values after abrasive wear were similar for both analysed series.
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2020.203233