Publication detail

EVALUATION OF DLC COATING FOR PARTS OF WEAPONS AND MILITARY EQUIPMENT

HÉGR, E. STUDENÝ, Z. NGUYEN, H. PROCHÁZKA, J. ADAM, J.

English title

EVALUATION OF DLC COATING FOR PARTS OF WEAPONS AND MILITARY EQUIPMENT

Type

conference paper

Language

en

Original abstract

The article deals with tribological evaluation of DLC coating. This coating is deposited on a material which, due to its mechanical properties, is suitable for components of weapons and military equipment. The results of the Department of Engineering of the Faculty of Military Technology of the University of Defense in Brno in the field of plasma nitriding are used in this work. Plasma nitriding technology has been found to have a positive effect on the performance of components operating under extreme conditions. One of the significant surface changes is the increase in surface hardness. Further increases wear resistance and corrosion resistance. By setting the parameters of plasma nitriding technology appropriately, fatigue life can be increased.Deposition of the DLC coating by PVD technology on a tempered or plasma nitrided surface results in qualitative changes on the surface of the component. Evaluation of tribological properties such as coefficient of friction or wear coefficient can be verified by adjusting surface treatment technologies to specific applications, eg in armaments production.The paper presents the results of tribological properties of the surface of the DLC coating deposited on substrate of the heat-treated steel 42CrMo4. The comparison was done with the deposition of a DLC coating on the surface substrate of a steel 42CrMo4 that has been plasma nitrided, like a duplex system. Tribological properties such as friction coefficient and wear coefficient were measured by a Tribolab UMT-3 equipment. Tribological tests such as Scratch test and Ball on Disc were performed on this device.

English abstract

The article deals with tribological evaluation of DLC coating. This coating is deposited on a material which, due to its mechanical properties, is suitable for components of weapons and military equipment. The results of the Department of Engineering of the Faculty of Military Technology of the University of Defense in Brno in the field of plasma nitriding are used in this work. Plasma nitriding technology has been found to have a positive effect on the performance of components operating under extreme conditions. One of the significant surface changes is the increase in surface hardness. Further increases wear resistance and corrosion resistance. By setting the parameters of plasma nitriding technology appropriately, fatigue life can be increased.Deposition of the DLC coating by PVD technology on a tempered or plasma nitrided surface results in qualitative changes on the surface of the component. Evaluation of tribological properties such as coefficient of friction or wear coefficient can be verified by adjusting surface treatment technologies to specific applications, eg in armaments production.The paper presents the results of tribological properties of the surface of the DLC coating deposited on substrate of the heat-treated steel 42CrMo4. The comparison was done with the deposition of a DLC coating on the surface substrate of a steel 42CrMo4 that has been plasma nitrided, like a duplex system. Tribological properties such as friction coefficient and wear coefficient were measured by a Tribolab UMT-3 equipment. Tribological tests such as Scratch test and Ball on Disc were performed on this device.

Keywords in English

DLC coating;Scratch test;Ball on Disc;components of weapons;

Released

27.07.2020

Publisher

METAL 2020 - 29th International Conference on Metallurgy and Materials, Conference Proceedings

Location

Brno

ISBN

978-80-87294-97-0

ISSN

2694-9296

Book

CONFERENCE PROCEEDINGS - METAL 2020

Pages count

10

BIBTEX


@inproceedings{BUT175103,
  author="Eduard {Hégr} and Zbyněk {Studený},
  title="EVALUATION OF DLC COATING FOR PARTS OF WEAPONS AND MILITARY EQUIPMENT",
  booktitle="CONFERENCE PROCEEDINGS - METAL 2020",
  year="2020",
  month="July",
  publisher="METAL 2020 - 29th International Conference on Metallurgy and Materials, Conference Proceedings",
  address="Brno",
  isbn="978-80-87294-97-0",
  issn="2694-9296"
}