Tribological Properties of PVD Carbon-Copper Composite Films Reinforced by Titanium

Tribological Properties of PVD Carbon-Copper Composite Films Reinforced by Titanium

Carbon-copper composite coatings reinforced with titanium were deposited using high power magnetron sputtering technique. Tribological and metrological tests were performed using Taylor Hobson Talysurf Intra 50 measuring equipment and CSM Instruments ball-on-disk type tribometer. Friction coefficien...

Full description

Bibliographic Details
Main Authors: Lungevics J., Leitans A., Rudzitis J., Bulahs N., Nazarovs P., Kovalenko V.
Format: Article
Language:English
Published: Sciendo 2016-02-01
Series:Latvian Journal of Physics and Technical Sciences
Subjects:
3d roughness
carbon-copper composite
magnetron sputtering
nanocoatings
solid lubricant
wear
Online Access:https://doi.org/10.1515/lpts-2016-0007
id doaj-fb8ff07ea9f842a899fbcbb6bead81ae
record_format Article
spelling doaj-fb8ff07ea9f842a899fbcbb6bead81ae2021-09-06T19:20:06ZengSciendoLatvian Journal of Physics and Technical Sciences0868-82572016-02-01531667410.1515/lpts-2016-0007lpts-2016-0007Tribological Properties of PVD Carbon-Copper Composite Films Reinforced by TitaniumLungevics J.0Leitans A.1Rudzitis J.2Bulahs N.3Nazarovs P.4Kovalenko V.5Institute of Mechanical Engineering, Riga Technical University, 6 Ezermalas Str., LV-1006, Riga, LATVIA, E-mail: mti@rtu.lvInstitute of Mechanical Engineering, Riga Technical University, 6 Ezermalas Str., LV-1006, Riga, LATVIA, E-mail: mti@rtu.lvInstitute of Mechanical Engineering, Riga Technical University, 6 Ezermalas Str., LV-1006, Riga, LATVIA, E-mail: mti@rtu.lvInstitute of Mechanical Engineering, Riga Technical University, 6 Ezermalas Str., LV-1006, Riga, LATVIA, E-mail: mti@rtu.lv LTD Naco Technologies, 24A-52 Ganibu dambis, LV-1005, Riga, LATVIA, E-mail: info@nacotechnologies.com LTD Naco Technologies, 24A-52 Ganibu dambis, LV-1005, Riga, LATVIA, E-mail: info@nacotechnologies.comCarbon-copper composite coatings reinforced with titanium were deposited using high power magnetron sputtering technique. Tribological and metrological tests were performed using Taylor Hobson Talysurf Intra 50 measuring equipment and CSM Instruments ball-on-disk type tribometer. Friction coefficient and wear rate were determined at 2N, 4N, 6N loads. It was revealed that friction coefficient decreased at a higher Ti concentration, which was particularly expressed at bigger applied loads. However, wear volume values tended to increase in the beginning, till Ti concentration reached about 11 %, but then decreased, thus providing better nanocoating wear resistance.https://doi.org/10.1515/lpts-2016-00073d roughnesscarbon-copper compositemagnetron sputteringnanocoatingssolid lubricantwear
collection DOAJ
language English
format Article
sources DOAJ
author Lungevics J.
Leitans A.
Rudzitis J.
Bulahs N.
Nazarovs P.
Kovalenko V.
spellingShingle Lungevics J.
Leitans A.
Rudzitis J.
Bulahs N.
Nazarovs P.
Kovalenko V.
Tribological Properties of PVD Carbon-Copper Composite Films Reinforced by Titanium
Latvian Journal of Physics and Technical Sciences
3d roughness
carbon-copper composite
magnetron sputtering
nanocoatings
solid lubricant
wear
author_facet Lungevics J.
Leitans A.
Rudzitis J.
Bulahs N.
Nazarovs P.
Kovalenko V.
author_sort Lungevics J.
title Tribological Properties of PVD Carbon-Copper Composite Films Reinforced by Titanium
title_short Tribological Properties of PVD Carbon-Copper Composite Films Reinforced by Titanium
title_full Tribological Properties of PVD Carbon-Copper Composite Films Reinforced by Titanium
title_fullStr Tribological Properties of PVD Carbon-Copper Composite Films Reinforced by Titanium
title_full_unstemmed Tribological Properties of PVD Carbon-Copper Composite Films Reinforced by Titanium
title_sort tribological properties of pvd carbon-copper composite films reinforced by titanium
publisher Sciendo
series Latvian Journal of Physics and Technical Sciences
issn 0868-8257
publishDate 2016-02-01
description Carbon-copper composite coatings reinforced with titanium were deposited using high power magnetron sputtering technique. Tribological and metrological tests were performed using Taylor Hobson Talysurf Intra 50 measuring equipment and CSM Instruments ball-on-disk type tribometer. Friction coefficient and wear rate were determined at 2N, 4N, 6N loads. It was revealed that friction coefficient decreased at a higher Ti concentration, which was particularly expressed at bigger applied loads. However, wear volume values tended to increase in the beginning, till Ti concentration reached about 11 %, but then decreased, thus providing better nanocoating wear resistance.
topic 3d roughness
carbon-copper composite
magnetron sputtering
nanocoatings
solid lubricant
wear
url https://doi.org/10.1515/lpts-2016-0007
work_keys_str_mv AT lungevicsj tribologicalpropertiesofpvdcarboncoppercompositefilmsreinforcedbytitanium
AT leitansa tribologicalpropertiesofpvdcarboncoppercompositefilmsreinforcedbytitanium
AT rudzitisj tribologicalpropertiesofpvdcarboncoppercompositefilmsreinforcedbytitanium
AT bulahsn tribologicalpropertiesofpvdcarboncoppercompositefilmsreinforcedbytitanium
AT nazarovsp tribologicalpropertiesofpvdcarboncoppercompositefilmsreinforcedbytitanium
AT kovalenkov tribologicalpropertiesofpvdcarboncoppercompositefilmsreinforcedbytitanium
_version_ 1717777351939457024

Similar Items