THE TRIBOTECHNICAL CHARACTERISTICS OF DIAMOND-LIKE COATINGS FORMED BY HYBRID TECHNOLOGY

Authors

  • Nikolay Mikhailovich Chekan State Scientific Institution "Physics and Technology Institute of the National Academy of Sciences of Belarus"
  • Evgeny Vitalievich Auchynnikau Grodno State University named after Y. Kupala
  • Evgenia Ivanovna Eysimont Grodno State University named after Y. Kupala
  • Vitaly Mikhailovich Khvisevich Brest State Technical University
  • Andrei Ivanovich Verameychyk Brest State Technical University
  • Denis Sergeevich Kolynov LLC "Vikon-Auto"
  • Gennady Alexandrovich Kostyukovich Grodno State University named after Y. Kupala

DOI:

https://doi.org/10.36773/1818-1112-2021-126-3-63-67

Keywords:

diamond-like coating, cryogenic treatment, coefficient of friction, steel, wear resistance

Abstract

The use of low temperatures to improve the performance of steel products is a widely used technology in mechanical engineering. Another direction
of increasing the efficiency of machine parts and mechanisms is the creation of thin-layer systems using vacuum technologies. The combination
of these technological approaches made it possible to obtain antifriction vacuum superhard coatings with increased tribotechnical characteristics.
The effect of increasing the wear resistance of hybrid coatings is the formation of nanodisperse structures in the steel substrate and coating, the decay
of residual austenite, which leads to an increase in martensite in the structure of steel subjected to cold treatment, a significant change in the values of
internal stresses in superhard coatings.

Author Biographies

Nikolay Mikhailovich Chekan, State Scientific Institution "Physics and Technology Institute of the National Academy of Sciences of Belarus"

Ph.D in Physical and Mathematical Sciences, Head of the Laboratory of Nanomaterials and Ion-Plasma Processes, State Scientific Institution "Physico-Technical Institute of the National Academy of Sciences of Belarus".

 

 

 

Evgeny Vitalievich Auchynnikau, Grodno State University named after Y. Kupala

Doctor of Technical Sciences, Associate Professor, Associate Professor of the Department of Logistics and Management Methods, Grodno State University named after Y. Kupala, Grodno, Belarus.

 

 

 

Evgenia Ivanovna Eysimont, Grodno State University named after Y. Kupala

Ph.D in Engineering, Associate Professor, Associate Professor of the Department of Logistics and Management Methods, Grodno State University named after Y. Kupala, Grodno, Belarus.

 

 

 

Vitaly Mikhailovich Khvisevich, Brest State Technical University

Ph.D in Engineering, Associate Professor, Professor of the Department of Applied Mechanics of Brest State Technical University, Brest, Belarus.

 

 

 

Andrei Ivanovich Verameychyk, Brest State Technical University

Ph.D in Physics and Mathematics, Associate Professor, Senior Research Associate of Brest State Technical University Testing Center, Brest, Belarus.

 

 

 

Denis Sergeevich Kolynov, LLC "Vikon-Auto"

Consultant of LLC "Vikon-Auto", Chkalovsk, Nizhny Novgorod region, Russian Federation.

 

 

 

Gennady Alexandrovich Kostyukovich, Grodno State University named after Y. Kupala

Ph.D in Engineering, Professor of the Department of Materials Science and Resource-Saving Technologies, Grodno State University named after I. Kupala. Deputy Director of JSC "Belcard" for Development, Grodno, Belarus.

 

 

 

Downloads

Published

2021-12-02

How to Cite

(1)
Chekan, N. M.; Auchynnikau, E. V.; Eysimont, E. I.; Khvisevich, V. M.; Verameychyk, A. I.; Kolynov, D. S.; Kostyukovich, G. A. THE TRIBOTECHNICAL CHARACTERISTICS OF DIAMOND-LIKE COATINGS FORMED BY HYBRID TECHNOLOGY. Вестник БрГТУ 2021, 63-67.

Issue

No. 3(126) (2021): Vestnik of Brest State Technical University

Section

Mechanical Engineering

License

Copyright (c) 2021 Brest State Technical University

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

The work is provided under the terms of Creative Commons public license Attribution-NonCommercial 4.0 International (CC BY-NC 4.0). This license allows an unlimited number of persons to reproduce and share the Licensed Material in all media and formats. Any use of the Licensed Material shall contain an identification of its Creator(s) and must be for non-commercial purposes only. Users may not prevent other individuals from taking any actions allowed by the license.

Most read articles by the same author(s)