Structural and Mechanical Properties of Zr-Si-N Coatings Deposited by Arc Evaporation at Different Substrate Bias Voltages

ZrN and Zr-Si-N coatings were formed using vacuum-arc plasma fluxes deposition system at the substrate bias voltage (U B ) ranged from − 50 to − 220 V on HS6-5-2 steel substrates. The structural, mechanical and tribological properties were characterized using x-ray diffraction, atomic force microsco...

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Bibliographic Details
Published in:Journal of materials engineering and performance 2018-08, Vol.27 (8), p.3940-3950
Main Authors: Warcholinski, B., Kuznetsova, T. A., Gilewicz, A., Zubar, T. I., Lapitskaya, V. A., Chizhik, S. A., Komarov, A. I., Komarova, V. I., Kuprin, A. S., Ovcharenko, V. D., Goltvyanytsya, V. S.
Format: Article
Language:English
Subjects:
Characterization and Evaluation of Materials
Chemistry and Materials Science
Corrosion and Coatings
Engineering Design
Materials Science
Quality Control
Reliability
Safety and Risk
Tribology
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Summary:ZrN and Zr-Si-N coatings were formed using vacuum-arc plasma fluxes deposition system at the substrate bias voltage (U B ) ranged from − 50 to − 220 V on HS6-5-2 steel substrates. The structural, mechanical and tribological properties were characterized using x-ray diffraction, atomic force microscopy, scanning electron microscopy, optical microscopy, nanoindentation and ball-on-disk test. The surface roughness parameter Ra of ZrN coatings is lower than Zr-Si-N coatings. Both roughness Ra of Zr-Si-N coatings and the number of surface defects with mainly small dimensions to 1 µm decrease with increasing negative substrate bias voltage. The addition of silicon to ZrN significantly reduces the crystallite size, from about 18.3 nm for ZrN coating to 6.4 nm for Zr-Si-N coating both deposited at the same U B  = − 100 V and 7.8 nm for U B  = − 150 V. The hardness of Zr-Si-N coatings increases to about 30 GPa with the increase in negative substrate bias voltage (U B  = − 220 V). Adhesion of the coatings tested is high, and critical load is above 80 N and reduces with U B increase. Coefficient of friction determined using AFM shows similar trend as surface roughness in microscale.
ISSN:1059-9495
1544-1024
DOI:10.1007/s11665-018-3483-7