Tribological characteristics of nanocomposite vacuum-plasma Ti-Hf, Ti-Hf-N, and Ti-Hf-Si-N coatings
А. А. АндреевNational Scientific Center Kharkov Physicotechnical Institute, ul. Akademicheskaya 1, Kharkov, 61108, UkraineВ. М. БересневKarazin Kharkov National University, pl. Svobody 4, Kharkov, 61022, UkraineМ. A. VolosovaStankin Moscow State University of Technology, Vadkovskii per. 1, Moscow, 127994, RussiaС. Н. ГригорьевSTANKIN Moscow State University of TechnologyД. А. КолесниковBelgorod State University, ul. Pobedy 85, Belgorod, 308015, RussiaA. D. PogrebnyakSumy State University, ul. Rimskogo-Korsakova 2, Sumy, 40007, UkraineI. V. SerdyukNational Scientific Center Kharkov Physicotechnical Institute, ul. Akademicheskaya 1, Kharkov, 61108, UkraineО. В. СобольNational Technical University Kharkov Polytechnical Institute, ul. Frunze 21, Kharkov, 61002, UkraineП. В. ТурбінScientific Physical and Center of Ministry of Education and Science, Ministry of Youth and Sports, and National Academy of Sciences, pl. Svobody 6, Kharkov, 61022, Ukraine
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The tribological characteristics of nanocomposite Ti-Hf, Ti-Hf-N, and Ti-Hf-Si-N coatings deposited by the pulse HF-assisted vacuum arc method are studied. A substantial increase in the wear resistance and a decrease in the coefficient of friction of a protective Ti-Hf-Si-N coating compared to the steel substrate and protective Ti-Hf and (Ti, Hf)N coatings are found and explained.
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