ArticleOriginal scientific text

Title

The Structure and Characteristics of Tribological Systems with Diamond Like Carbon Coatings under Ionic Liquid Lubrication Conditions

Authors 1, 2, 3, 2

Affiliations

  1. Kielce University of Technology, 7th Tysiąclecia P. P. Av. 25-314 Kielce, Poland
  2. University of Life Sciences in Lublin, Poland
  3. Kielce University of Technology, 7th Tysiaclecia P. P. Av. 25-314 Kielce, Poland

Abstract

The results from the tests on tribological a-C:H diamond coatings deposited by PACVD (plasma assisted chemical vapour deposition) on 100Cr6 steel components are presented in this work. Mechanical properties - nanohardness and Young’s modulus - were assessed by instrumented indentation. Tribological tests were conducted with T-01M tester in a ball-on-disc test under dry and boundary friction conditions. Selected ionic liquids - synthetic new generation lubricants - were used for lubrication. The results from the experiments indicate that diamond-like coatings improved tribological characteristics of the friction pairs tested, with the ionic liquids intensifying this effect.

Keywords

diamond-like carbon coatings, ionic liquids, SEM, nanoindentation, friction, tribological wear

Bibliography

  1. R. Burdzik, Ł. Konieczny, B. Łazarz, Acta Metallurgica Slovaca - Conference 4, 198 (2014)
  2. Stachowiak, W. Zwierzycki, Tribology International 44, 1216 (2011).
  3. M. Madej, Wear 317(1-2), 179 (2014).
  4. R. Michalczewski, W. Piekoszewski, M. Szczerek, W. Tuszyński, Tribology International 42, 554 (2009).
  5. M. Madej, D. Ozimina, K. Kurzydłowski, T. Płociński, P. Wieciński, M. Styp-Rekowski, M. Matuszewski, Transactions of FAMENA 39(1), 79 (2015).
  6. E. Zdravecká, V.Tiainen, Y. Konttinen, L. Franta, M. Vojs, M. Marton, M. Ondác, J. Tkácová, Vacuum 86, 675 (2012).
  7. M. Madej, D. Ozimina, I. Piwoński, A. Kisielewska, Metallic Materials 4, 297 (2012).
  8. M. Abdollah, Y. Yamaguchi, T. Akao, N. Inayoshi, N. Miyamoto, T. Tokoroyama, N. Umehara, Wear 274-275, 435 (2012).
  9. R. Michalczewski, W. Piekoszewski, Finish J. of Tribology 26, 9 (2007).
  10. K. Holmberg, H. Ronkainen, M. Matthews, Ceramics International 26, 787 (2000).
  11. M. Madej, K. Marczewska-Boczkowska, D. Ozimina, Przemysł Chemiczny 93(4), 500 (2014).
  12. S. Aisenberg, R. Chabot, Journal of Applied Physics 42, 2953 (1971).
  13. C. Donnet, A. Erdemir (Eds.), Tribology of diamond-like carbon films. Fundametals and applications, New York 2008.
  14. F. Zhiqiang, S. Jian, W. Chengbiao, Z. Wei, Y. Wen, P. Zhijian, Y. Xiang, L. Songsheng, D. Mingjiang, Vacuum 94, 14 (2013).
  15. M. Kot, B. Major, J. M. Lackner, Materials and Design 51, 280 (2013).
  16. P. Wasserscheid, T. Welton, Ionic Liquids in Synthesis, Weinheim 2008.
  17. I. Minami, Molecules 14, 2286 (2009).
  18. M. Kosmulski, J. Rosenholm, C. Saneluta, K. Marczewska-Boczkowska, J. Colloid Interface Sci. 291(1), 214 (2005).
  19. F. Zhou, Y. Liang, W. Liu, Chem. Soc. Rev. 38, 2590 (2009).
  20. T. Predel, B. Pohrer, E. Schluckre, Chem. Eng. Tech. 33, 132 (2010).

Additional information

PL: Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę

Pages:
1169-1174
Main language of publication
English
Published
2016
Engineering and technical sciences