Open AccessSTRUCTURE AND CORROSION RESISTANCE OF VACUUM-ARC MULTI-PERIOD CrN/Cu, ZrN/Cu, AND NbN/Cu COATINGS
Author(s) -
Hanna Postelnyk,
O. V. Sоbоl,
V. А. Stolbovoy,
І. В. Сердюк,
Ondřej Chocholatý
Publication year - 2020
Language(s) - English
DOI - 10.46813/2020-126-139
Subject(s) - materials science , nitride , corrosion , vacuum arc , lattice constant , composite number , ion , lattice (music) , texture (cosmology) , metallurgy , composite material , layer (electronics) , plasma , diffraction , optics , physics , image (mathematics) , quantum mechanics , artificial intelligence , computer science , acoustics
The structure and properties of vacuum-arc multi-period composite coatings of the MeN/Cu system (where Me is Cr, Zr, and Nb) are studied. It was found that at the smallest nanolayer thickness (about 8…10 nm) of composites in the layers of all systems, only a phase with an fcc lattice is formed, without a pronounced texture in the nitride layers. For ZrN and CrN, the phases with an fcc lattice are equilibrium, and for NbN, they are nonequilibrium. An increase in the thickness of nitride layers leads to the appearance of a texture in ZrN/Cu and CrN/Cu systems and the formation of an equilibrium ε-NbN phase in the layers of the NbN/Cu system. Tests for corrosion resistance in the environment of the formation of chloride ions showed that the coatings are anodic reaction. The best corrosion properties were obtained for coatings with the smallest layer thickness (about 8…10 nm).