Friction and anti-galling properties of hexagonal boron nitride (h-BN) in aluminium forming

In the present work the friction and anti-galling properties of the h-BN in a steel-aluminium contact have been investigated, focusing on the possibility of replacing graphite with the h-BN in the aluminium forming operations. Extruded AA2014 alloy, widely used for the production of complex parts, w...

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Bibliographic Details
Published in:Wear 2017-10, Vol.388-389, p.2-8
Main Authors: Podgornik, B., Kafexhiu, F., Kosec, T., Jerina, J., Kalin, M.
Format: Article
Language:English
Subjects:
Al extrusion
Aluminum
Aluminum extrusion
Bearing strength
Boron
Boron nitride
Coefficient of friction
Contact problems
Extrusion
Forming
Friction
Friction resistance
Galling
Graphite
High temperature
Lamellar structure
Load carrying capacity
Lubrication
Mechanical properties
Metal forming
solid lubricant
Solid lubricants
Tribology
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Summary:In the present work the friction and anti-galling properties of the h-BN in a steel-aluminium contact have been investigated, focusing on the possibility of replacing graphite with the h-BN in the aluminium forming operations. Extruded AA2014 alloy, widely used for the production of complex parts, was used. Investigation included the effect of h-BN powder size and concentration on the level and stability of the coefficient of friction, galling resistance and the quality of the Al surface. Tribological and anti-galling properties at room and elevated temperature of 400°C have been carried out on the load-scanner test rig. Graphite was used as a reference solid lubricant. In the case of the h-BN powder three different particle sizes were used, i.e., 0.5µm, 5µm and 30µm, added to NGL class-2 industrial grease in the concentrations of 5%, 10% and 20%. Results show that white h-BN, as a solid lubricant, is capable of successfully replacing graphite and providing “clean” surface, but only under mild contact conditions. It has similar lamellar structure but inferior load-carrying capacity, with its lubrication and anti-galling properties very much depending on the powder size, concentration and temperature. Contrary to the graphite tribological properties of h-BN deteriorate with increased concentration but improve with temperature and powder size. Best results are obtained for concentration of 5% and 30µm powder size. •The h-BN solid lubricant shows inferior load-carrying capacity compared to graphite.•At mild contact conditions large h-BN powder size and low concentrations give superior results.•Under severe contact conditions h-BN can’t match graphite.•Properties of h-BN improve at elevated temperatures
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2017.04.026