Metal-ceramic Coatings Made of FeCrMoWCBSi, Metallic Glass Reinforced with TiB₂

CZU 621.9.048.4

DOI  https://doi.org/10.52577/eom.2025.61.5.35

Recently, metal-ceramic composites with an amorphous matrix have attracted special attention of researchers. In this work, composite coatings made of Fe-based metallic glass reinforced with titanium diboride (TiB₂) were prepared for the first time. For this purpose, the method of electrospark deposition with a non-localized electrode consisting of iron granules, TiB₂ powder and amorphizing powder in various ratios was used. The thickness of the prepared composite coatings on 45 steel ranged from 37 to 44 μm. It was shown that the coating structure contains TiB₂ particles, the maximum concentration of which is achieved at a titanium diboride to multicomponent powder ratio of 1 to 5. The surface roughness of the coatings had close values of 8.3–8.8 μm. It was found that the wetting angle of coatings reinforced with TiB₂ with distilled water changes from 80.4 to 91.4°, whereas the hydrophobicity of the amorphous coating without TiB₂ was higher (95.4°). It was found that reinforcing the amorphous coating with TiB₂ allows increasing its microhardness from 10.0 GPa to 12.5–14.65 GPa. The average values of the friction coefficient of coatings ranged from 0.76 to 0.58. The coating with the highest concentration of titanium diboride had the highest wear resistance. Its use allows reducing the wear of parts made of steel 45 almost 10 times. It has been established, that reinforcement of the amorphous coating with TiB₂ according to the proposed method does not worsen its oxidation resistance. In general, the use of the developed coatings allows increasing the oxidation resistance of products made of steel 45 at a temperature of 700 °C from 13 to 20 times.

Keywords: metal-ceramic, metallic glass, TiB₂, coatings, electrospark deposition, wettability, coefficient of friction, hardness, wear, oxidation resistance.