Properties, composition and structure of multilayer gradient (Zr,Nb)N coatings prepared by vacuum arc deposition method
Keywords:
Vacuum-arc deposition; nitride coatings; (Zr,Nb)N; multilayer structure; nanosized crystallites; concentration gradientAbstract
This paper presents the results of synthesis of the multilayer gradient (Zr,Nb)N coatings, synthesized by the vacuum-arc deposition at the evaporation of (Zr and Nb) pure metal cathodes. The niobium concentration gradient through the thickness was obtained by varying the arc current with a niobium cathode in the range of 80–150 A under the constant pressure of the working argon-nitrogen gas mixture and constant current of arc discharge with a zirconium cathode. The formed gradient coatings were studied by SEM, TEM, XRD analysis, micro- and nanoindentation, and tribological measurements. It was found, that the synthesized coatings have high hardness of up to 36.2 GPa, relatively low Young’s modulus of 222 GPa, relatively high H/E ratio of ? 0.2, high degree of elastic recovery of 69%, low arithmetic average surface roughness of 0.03 ?m, low friction coefficient of 0.31, and relatively low wear rate of 1.3·10–6 mm3N–1m–1. The coatings have a multiphase and multilayer nanocrystalline structure with alternation of layers with higher and lower niobium concentration. The multilayer gradient (Zr,Nb)N coating consists mainly of the ZrN crystallites with a cubic crystal lattice, and Zr0.5Nb0.5N, Nb, NbN crystallites with the volume fraction of up to 23% and 3% of crystallites of the following phases: Nb2N, Nb4N3, ZrN0.28, NbO2, Nb2O5, and ZrO2.
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Published
2021-19-04
How to Cite
Krysina О. В., Prokopenko Н. А., Ivanov Ю. Ф., Shugurov В. В., Tolkachev О. С., & Petrikova Е. А. (2021). Properties, composition and structure of multilayer gradient (Zr,Nb)N coatings prepared by vacuum arc deposition method. Materials. Technologies. Design., 3(1 (3), 29–39. Retrieved from http://194.190.227.39/index.php/mtd/article/view/3129
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