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Advisor(s)
Abstract(s)
This work deals with the investigation of the tribological performance of DC magnetron
sputteredW-S-N coatings under vacuum atmosphere, as part of the exploration of multi-environment
sliding properties of W-S-N solid lubricants. This study is part of the systematic testing of W-S-N
solid lubricants in different environments, especially vacuum, which is often ignored. The trend is to
test sliding properties in dry N2 by considering it as replacement of vacuum environment testing.
This approach is not appropriate. In this work, a set of coatings was synthesized with N-alloying
content in the range of 0–25.5 at.%. A maximum S/W ratio of 1.47 was observed for the pure WSx
coating. A maximum hardness of 8.0 GPa was observed for 23 at.% of N-alloying. The coating
with the lowest N content (14.6 at.%) displayed the lowest friction, specific wear rate and wear scar
depth under vacuum conditions. Despite superior sliding performance at room temperature (35%
humidity), 200 C and dry nitrogen conditions, the performance of the WSN12.5 coating deteriorated
vacuum environment.
Description
Keywords
W-S-N films Solid lubricants Friction and wear DC magnetron sputtering
Citation
Publisher
MDPI