Effect of High-Entropy Components of Nitride Layers on Nitrogen Content and Hardness of (TiN-Cu)/(AlNbTiMoVCr)N Vacuum-Arc Multilayer Coatings

Effect of High-Entropy Components of Nitride Layers on Nitrogen Content and Hardness of (TiN-Cu)/(AlNbTiMoVCr)N Vacuum-Arc Multilayer Coatings

An integrated research of links in the “content-structure-properties” chain in structural engineering of (TiN-Cu)/(AlNbTiMoVCr)N multilayer coatings was carried out with application of elemental and X-ray diffraction analysis as well as microhardness testing. It has been found that formation of the...

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Main Authors: V.М. Beresnev, О.V. Sobol’, S.V. Lytovchenko, U.S. Nyemchenko, V.А. Stolbovoy, D.А. Kolesnikov, А.А. Meylehov, А.А. Postelnyk, P.V. Turbin, L.V. Malikov
Format: Article
Language:English
Published: Sumy State University 2016-06-01
Series:Журнал нано- та електронної фізики
Subjects:
Multilayer coating (TiN-Cu)/(AlNbTiMoVCr)N
Nitrogen content
Structure
Process gas pressure
Hardnes
Online Access:http://jnep.sumdu.edu.ua/download/numbers/2016/2/articles/jnep_2016_V8_02057.pdf
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Summary:An integrated research of links in the “content-structure-properties” chain in structural engineering of (TiN-Cu)/(AlNbTiMoVCr)N multilayer coatings was carried out with application of elemental and X-ray diffraction analysis as well as microhardness testing. It has been found that formation of the second layer based on a high-entropy alloy even with a relatively small content of components (below 1 wt %) leads to formation of a solid solution FCC lattice phase. Compared to TiN-Cu singlelayer coatings, the multilayer coating based on a (TiN-Cu)/(AlNbTiMoVCr)N system has an increased nitrogen content and an enhanced hardness of up to 24.5 GPa.
ISSN:2077-6772

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