Погребняк, Олександр ДмитровичПогребняк, Александр ДмитриевичPohrebniak, Oleksandr DmytrovychБагдасарян, Артем АнатолійовичБагдасарян, Артем АнатольевичBahdasarian, Artem AnatoliiovychBeresnev, V.M.Kupchishin, A.I.Plotnikov, S.V.Кравченко, Ярослав ОлеговичКравченко, Ярослав ОлеговичKravchenko, Yaroslav Olehovych2018-12-202018-12-202017Microstructure and tribological properties of nitride coatings based on Zr, Ti, Cr, Nb, and Si elements [Текст] / A.D. Pogrebnjak, A.A. Bagdasaryan, V.M. Beresnev [et al.] // High Temp erature Material Processes. — 2017. — №21(3). — С. 261-275.0000-0001-5350-71530000-0002-9218-64920000-0003-0984-1298http://essuir.sumdu.edu.ua/handle/123456789/70741The structure and tribological properties of the nitride coatings (Zr–Ti–Nb)N, (Zr–Ti–Cr–Nb)N, and (Zr–Ti-Cr–Nb–Si)N, f abricated by vacuum arc deposition have been investigated. Their ele- mental composition and crystal structure are characterized by EDS and SEM analyses, XPS, and X-ray diffraction. The multicomponent (Zr–Ti–Cr–Nb–Si)N and (Zr–Ti–Nb)N coatings are f ound to be a simple f ace-centered cubic (f cc) solid solution. For the coatings without Si, the struc- ture is mainly composed of the TiN f cc phase and Cr2N trigonal modification. The (Zr–Ti–Nb)N and (Zr–Ti–Cr–Nb)N coatings provided the best adhesive strength in different conditions. The (Zr–Ti–Cr–Nb–Si)N coatings exhibited the worst adhesive strength, which may be attributed to the relative low hardness.encnevacuum arctribological propertiesmultielement coatingsmicrostructureadhesionArticle