Properties of Journal Bearing Materials That Determine Their Wear Resistance on the Example of Aluminum-Based Alloys

Potential relations of tribological characteristics of aluminum antifriction alloys with their compositions and mechanical properties were investigated. In this regard, the properties of eight aluminum alloys containing tin from 5.4% to 11% doped with lead, copper, silicon, zinc, magnesium, and tita...

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Veröffentlicht in:	Materials 2021-01, Vol.14 (3), p.535
Hauptverfasser:	Mironov, Alexander, Gershman, Iosif, Gershman, Eugeniy, Podrabinnik, Pavel, Kuznetsova, Ekaterina, Peretyagin, Pavel, Peretyagin, Nikita
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum alloys Aluminum base alloys Antifriction bearings Bearing materials Carbon fibers Diamonds Friction Graphene Graphite Impact analysis Impact strength Influence Investigations Journal bearings Lubricants & lubrication Magnesium Mechanical properties Molybdenum Nanocomposites Seawater Seizures Titanium alloys Tribology Wear rate Wear resistance
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container_title	Materials
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creator	Mironov, Alexander Gershman, Iosif Gershman, Eugeniy Podrabinnik, Pavel Kuznetsova, Ekaterina Peretyagin, Pavel Peretyagin, Nikita
description	Potential relations of tribological characteristics of aluminum antifriction alloys with their compositions and mechanical properties were investigated. In this regard, the properties of eight aluminum alloys containing tin from 5.4% to 11% doped with lead, copper, silicon, zinc, magnesium, and titanium were studied. Mechanical properties such as hardness, strength, relative extension, and impact strength were analyzed. Within the tribological tests seizure load and wear of material were evaluated and secondary structures were studied afterwards. The absence of a definitive correlation between tribological behavior and mechanical properties was shown. It was determined that doping tin over 6% is excessive. The seizure load of the alloys increases with the magnesium content. Secondary structures of the alloys with higher wear rates contain one order less magnesium and tin.
doi_str_mv	10.3390/ma14030535
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subjects	Aluminum alloys Aluminum base alloys Antifriction bearings Bearing materials Carbon fibers Diamonds Friction Graphene Graphite Impact analysis Impact strength Influence Investigations Journal bearings Lubricants & lubrication Magnesium Mechanical properties Molybdenum Nanocomposites Seawater Seizures Titanium alloys Tribology Wear rate Wear resistance
title	Properties of Journal Bearing Materials That Determine Their Wear Resistance on the Example of Aluminum-Based Alloys
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