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Structural and Tribological Studies of “(TiC + WC)/Hardened Steel” PMMC Coating Deposited by Air Pulsed Plasma

Yu. G. Chabak, V. G. Efremenko, V. І. Zurnadzhy, Viktor Puchý, Ivan Petryshynets, Bohdan Efremenko, V.I. Fedun, Kazumichi Shimizu, Iurii Bogomol, V. V. Kulyk, Dagmar Jakubéczyová

2022Metals38 citationsDOIOpen Access PDF

Abstract

The deposition of a thin (several tens of microns) protective coating in atmospheric conditions is a challenging task for surface engineering. The structural features and tribological properties of a particle-reinforced metal matrix composite coating synthesized on middle-carbon steel by air pulse-plasma treatments were studied in the present work. The 24–31 µm thick coating of “24 vol.% (TiC + WC)/Hardened steel matrix” was produced by 10 plasma pulses generated by an electro-thermal axial plasma accelerator equipped with a consumable cathode of novel design (low-carbon steel tube filled with “TiC/WC + Epoxy resin” mixture). The study included optical microscopy (OM), scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDX), X-ray diffraction (XRD, microhardness measurements, and dry “Ball-on-Plate” testing. The carbides were directly plasma-transferred to the substrate (steel of AISI 4145H grade) from the cathode without substantial melting. The hard (500–1044 HV) coating matrix consisted of 57 vol.% austenite (1.43 wt.% C) and 43 vol.% plate martensite was formed via carbon enrichment of steel from plasma flow. Additionally, a minor amount of oxide phases (TiO2, WO2, WO3) were dispersed in the matrix. As compared to substrate, the coating had a lower coefficient of friction; its volumetric wear was decreased by 4.4 times when sliding against hardened steel ball and by 16 times when sliding against SiC ball.

Topics & Concepts

Materials scienceCoatingScanning electron microscopeTribologyIndentation hardnessComposite materialMetallurgyEnergy-dispersive X-ray spectroscopyMicrostructureMetal and Thin Film MechanicsHigh-Temperature Coating BehaviorsAdvanced materials and composites
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