Wear Performance of a Physical Vapour Deposition-Coated, Spark Plasma Sintered TiB2/Ti Composite Lubricated with Externally Introduced hBN at Temperatures up to 900 °C.
Remigiusz Michalczewski, Maciej Łuszcz, Marek Kalbarczyk, Zbigniew Słomka, Edyta Osuch-Słomka, Jarosław Molenda, Le Liu, Maksim Antonov, Irina Hussainova, Manel Rodríguez Ripoll
Abstract
Open AccessIn this paper, the achieved state-of-the-art understanding regarding the wear behaviour of various PVD (physical vapour deposition) coatings deposited on TiB2/Ti composites produced by SPS (spark plasma sintering) is presented. The objective of this paper is to investigate the wear behaviour of various PVD coatings deposited on TiB2/Ti composites manufactured by SPS, when lubricated with hexagonal boron nitride (hBN) as an external solid lubricant in the range from room temperature up to 900 °C in friction contacts under extreme pressure and with oscillation relative motion. Four multicomponent and multilayer coatings were investigated based on AlCrN and TiCrN coatings with TiCrN-AlCrN/AlCrTiN/Si3N4 interlayers and various external layers (AlCrN, Si3N4, AlCrTiSiN, and AlCrTiSiN gradient with increasing oxygen gradient replacing nitrogen). The wear tests were performed by means of a ball-on-disc SRV friction and wear tester using reciprocating motion of the Si3N4 ball sliding against a coated disc from room temperature up to 900 °C. The best protection against wear and oxidation at higher temperatures (even up to 900 °C) was achieved for coatings with AlCrN and AlTiCrN external layers, and hBN lubricant was used simultaneously.