A study of structural and wear properties of PACVD deposited a-C:H thin films for application as protective layers on Al alloys

Due to the high strength‐to‐weight ratio, aluminum alloys are commonly used materials in aircraft and automotive industries. However, the low hardness and wear resistance and high friction coefficient limit their applications. In this study, we deposited a‐C:H thin films on 7075 Al alloy substrates...

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Bibliographic Details
Published in:Physica status solidi. A, Applications and materials science Applications and materials science, 2015-10, Vol.212 (10), p.2271-2277
Main Authors: Kottfer, Daniel, Marton, Marian, Ferdinandy, Milan, Trebuňa, Peter, Kaczmarek, Lukasz
Format: Article
Language:English
Subjects:
Adhesion tests
alloys
aluminum
Aluminum base alloys
amorphous carbon
Bias
Deposition
Friction
Mechanical properties
Raman spectroscopy
Thin films
wear
Wear resistance
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Summary:Due to the high strength‐to‐weight ratio, aluminum alloys are commonly used materials in aircraft and automotive industries. However, the low hardness and wear resistance and high friction coefficient limit their applications. In this study, we deposited a‐C:H thin films on 7075 Al alloy substrates without an interlayer by direct current PACVD method. Negative substrate bias was varied to improve the surface mechanical properties. We obtained smooth, homogenous, and well adhered up to 28 μm thick a‐C:H layers on the Al alloy substrates. The structural and mechanical properties were analyzed using Raman spectroscopy, SEM, nanoindentation and Pin‐on‐disc test. Raman spectroscopy showed a higher content of trans(CH)x within the films deposited with low bias and increased sp2 bonding for higher bias depositions. Adhesion test has shown the adhesion grade HF1 to HF4. Coefficient of friction was measured in the range 0.05–0.15 and wear rates of a‐C:H covered samples were significantly reduced in comparison to uncovered substrates. The obtained results show a promising potential of the a‐C:H as wear resistant coatings for the 7075 Al alloy.
ISSN:1862-6300
1862-6319
DOI:10.1002/pssa.201431866