O. V. Sobol', A. A. Andreev, V. F. Gorban', V. A. Stolbovoy, A. A. Meilekhov, A. A. Postel'nik, “Possibilities of structural engineering in multilayer vacuum-arc ZrN/CrN coatings by varying the nanolayer thickness and application of a bias potential”, Zhurnal Tekhnicheskoi Fiziki, 2016, Volume 86, Issue 7,Pages <nobr>100

This article is cited in 15 papers

Physics of nanostructures

Possibilities of structural engineering in multilayer vacuum-arc ZrN/CrN coatings by varying the nanolayer thickness and application of a bias potential

O. V. Sobol'^a, A. A. Andreev^b, V. F. Gorban'^c, V. A. Stolbovoy^b, A. A. Meilekhov^a, A. A. Postel'nik^a

^a Khar'kov Polytechnical University
^b National Science Centre Kharkov Institute of Physics and Technology
^c Institute of Materials Science Problems, National Academy of Sciences of Ukraine, Kiev

Abstract: The possibility of attaining an superhard state in multilayer vacuum-arc ZrN/CrN coatings with a layer thickness of about 20 nm has been established. It has been shown that the application of a constant negative potential for structural engineering during deposition leads to the formation of solid solutions due to mixing of interfaces. The hardness of these systems exceeds 30 GPa. The application of a pulsed high-voltage bias potential at which the ordering of atoms stimulated by elevated mobility is observed makes it possible to suppress the mixing of the interfaces and to attain elevated hardness (up to 42 GPa) for nanometer layer thicknesses.

Received: 06.11.2015