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http://dx.doi.org/10.5695/JKISE.2011.44.3.095

Microstructure and Wear Resistance of Ti-Me-N (Me=V, Nb and Si) Nanofilms Prepared by Hybrid PVD  

Yang, Young-Hwan (Department of Engineering Ceramic Center, KICET)
Kwak, Kil-Ho (Department of Engineering Ceramic Center, KICET)
Lee, Sung-Min (Department of Engineering Ceramic Center, KICET)
Kim, Seong-Won (Department of Engineering Ceramic Center, KICET)
Kim, Hyung-Tae (Department of Engineering Ceramic Center, KICET)
Kim, Kyung-Ja (Department of Engineering Ceramic Center, KICET)
Lim, Dae-Soon (Department of Materials Science and Engineering, Korea University)
Oh, Yoon-Suk (Department of Engineering Ceramic Center, KICET)
Publication Information
Journal of the Korean institute of surface engineering / v.44, no.3, 2011 , pp. 95-104 More about this Journal
Abstract
Ti based nanocomposite films including V, Si and Nb (Ti-Me-N, Me=V, Si and Nb) were fabricated by hybrid physical vapor deposition (PVD) method consisting of unbalanced magnetron (UBM) sputtering and arc ion plating (AIP). The pure Ti target was used for arc ion plating and other metal targets (V, Si and Nb) were used for sputtering process at a gas mixture of Ar/$N_2$ atmosphere. Mostly all of the films were grown with textured TiN (111) plane except the Si doped Ti-Si-N film which has strong (200) peak. The microhardness of each film was measured using the nanoindentation method. The minimum value of removal rate ($0.5{\times}10^{-15}\;m^2/N$) was found at Nb doped Ti-Nb-N film which was composed of Ti-N and Nb-N nanoparticles with small amount of amorphous phases.
Keywords
Tribology; Ti-V-N; Ti-Nb-N; Ti-Si-N; Hybrid PVD; Nanocomposite film;
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