Mechanical properties of Cr-O-N coatings deposited by cathodic arc evaporation

被引:36
|
作者
Warcholinski, B. [1 ]
Gilewicz, A. [1 ]
Kuprin, A. S. [2 ]
Tolmachova, G. N. [2 ]
Ovcharenko, V. D. [2 ]
Kuznetsova, T. A. [3 ]
Zubar, T., I [3 ]
Khudoley, A. L. [3 ]
Chizhik, S. A. [3 ]
机构
[1] Koszalin Univ Technol, Fac Technol & Educ, Koszalin, Poland
[2] Natl Sci Ctr Kharkov Inst Phys & Technol, Kharkov, Ukraine
[3] Natl Acad Sci Belarus, AV Luikov Heat & Mass Transfer Inst, Minsk, BELARUS
来源
VACUUM | 2018年 / 156卷
关键词
Cr-O-N; Arc deposition; AFM; Hardness; Adhesion; Wear; CRYSTAL-CHEMICAL APPROACH; SUBSTRATE BIAS VOLTAGE; OXYNITRIDE THIN-FILMS; OXYGEN-CONTENT; HARD COATINGS; TRIBOLOGICAL BEHAVIORS; OXIDATION RESISTANCE; DROPLET FORMATION; MICROSTRUCTURE; STEEL;
D O I
10.1016/j.vacuum.2018.07.017
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Ternary chromium based coatings (Cr-O-N) were formed on HS6-5-2 steel substrates using a vacuum arc plasma flux coating system at different relative oxygen concentrations, O-2(x) = O-2/(N-2 + O-2). The mechanical and tribological properties of the coatings were characterized using scanning electron microscopy (SEM), atomic force microscopy (AFM), hardness measurements, wear test and adhesion tests (scratch test and Daimler-Benz test). Special attention was paid to coating adhesion and failure modes in the adhesion tests. The coefficient of friction, wear rate and adhesion decreased as the relative oxygen concentration increased. Hardness of the coatings showed the opposite effect, increasing from approximately 19 GPa-30 GPa. The dominant failure mode of Cr-O-N coatings was abrasion. Individual micro fragmentation was also observed for Cr-O-N coating with O-2(x) = 20%.
引用
收藏
页码:97 / 107
页数:11
相关论文
共 50 条
  • [31] Effect of a Gas Medium on the Mechanical, Tribological, and Anticorrosion Properties of Cr-Ni-Al-C-N Coatings Deposited by the Pulsed Cathodic Arc Evaporation Method
    Kiryukhantsev-Korneev, Ph, V
    Sytchenko, A. D.
    Sheveyko, A. N.
    Gorshkov, V. A.
    Levashov, E. A.
    PHYSICS OF METALS AND METALLOGRAPHY, 2021, 122 (12): : 1241 - 1247
  • [32] Cr-O-N films deposited by arc ion plating as active diffusion barriers
    Wang, QM
    Guo, MH
    Ke, PL
    Sun, C
    Huang, RF
    Wen, LS
    ACTA METALLURGICA SINICA, 2004, 40 (12) : 1264 - 1268
  • [33] STRUCTURE AND PROPERTIES OF FeCr, CrAl AND FeCrAl COATINGS DEPOSITED BY CATHODIC ARC EVAPORATION
    Vasilenko, R. L.
    Voyevodin, V. N.
    Belous, V. A.
    Bortnitskaya, M. A.
    Kolodiy, I., V
    Klimenko, I. O.
    Ovcharenko, V. D.
    Kovalenko, V., I
    Marinin, V. G.
    Ilchenko, A., V
    Tikhonovsky, M. A.
    Kuprin, A. S.
    PROBLEMS OF ATOMIC SCIENCE AND TECHNOLOGY, 2021, (02): : 119 - 128
  • [34] Nanocomposite AlTiNCO Coatings Deposited by Reactive Cathodic Arc Evaporation
    Vetter, Joerg
    Ishikawa, Takeshi
    Shima, Nabuhiko
    PLASMA PROCESSES AND POLYMERS, 2007, 4 : S668 - S672
  • [35] MCRALY COATINGS DEPOSITED BY CATHODIC VACUUM-ARC EVAPORATION
    VETTER, J
    KNOTEK, O
    BRAND, J
    BEELE, W
    SURFACE & COATINGS TECHNOLOGY, 1994, 68 : 27 - 31
  • [36] Microstructural characterisation of Cr-Al-N nanocomposites deposited by cathodic arc evaporation
    Wuestefeld, Ch.
    Dopita, A.
    Klemm, V.
    Heger, D.
    Rafaja, D.
    ZEITSCHRIFT FUR KRISTALLOGRAPHIE, 2008, : 159 - 166
  • [37] Effect of nitrogen pressure and substrate bias voltage on the properties of Al-Cr-B-N coatings deposited using cathodic arc evaporation
    Warcholinski, B.
    Gilewicz, A.
    Myslinski, P.
    Dobruchowska, E.
    Murzynski, D.
    Kochmanski, P.
    Rokosz, K.
    Raaen, S.
    TRIBOLOGY INTERNATIONAL, 2021, 154
  • [38] Structure, mechanical and thermal properties of CrAlBSiN coatings prepared by cathodic arc evaporation
    Li, Kai Q.
    Chen, Li
    Hu, Chun
    Zhang, Jie
    Du, Jian W.
    SURFACE & COATINGS TECHNOLOGY, 2023, 452
  • [39] Synthesis and characterization of Cr–B–N coatings deposited by reactive arc evaporation
    K. Polychronopoulou
    J. Neidhardt
    C. Rebholz
    M.A. Baker
    M. O’Sullivan
    A.E. Reiter
    A.E. Gunnaes
    K. Giannakopoulos
    C. Mitterer
    Journal of Materials Research, 2008, 23 : 3048 - 3055
  • [40] (TICR)N COATINGS DEPOSITED BY CATHODIC VACUUM ARE EVAPORATION
    VETTER, J
    SCHOLL, HJ
    KNOTEK, O
    SURFACE & COATINGS TECHNOLOGY, 1995, 74-5 (1-3): : 286 - 291
12345