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PÁLESCH, E. MAREK, A. SOLAŘ, P. KYLIÁN, O. VYSKOČIL, J. BIEDERMAN, H. ČECH, V.
Original Title
Mechanical stability of titanium and plasma polymer nanoclusters in nanocomposite coatings
Type
journal article - other
Language
English
Original Abstract
The mechanical stability of nanoclusters embedded in nanocomposite coatings was investigated by scratch and wear tests supported by atomic force microscopy using surface topography mode. Titanium and plasma polymer nanoclusters were deposited on planar substrates (glass, titanium) using a magnetron-based gas aggregation cluster source. The deposited clusters were overcoated with thin titanium film of different thicknesses to stabilize the position of the clusters in the nanocomposite coating. Nanotribological measurements were carried out to optimize the thickness of the overcoating film for sufficient interfacial adhesion of the cluster/film system.
Keywords
Thin films; nanocomposite; adhesion; wear test; scratch test
Authors
PÁLESCH, E.; MAREK, A.; SOLAŘ, P.; KYLIÁN, O.; VYSKOČIL, J.; BIEDERMAN, H.; ČECH, V.
RIV year
2013
Released
31. 12. 2013
ISBN
0040-6090
Periodical
Thin Solid Films
Year of study
544
Number
10
State
Kingdom of the Netherlands
Pages from
593
Pages to
596
Pages count
4
BibTex
@article{BUT105072, author="Erik {Pálesch} and Aleš {Marek} and Pavel {Solař} and Ondřej {Kylián} and Jiří {Vyskočil} and Hynek {Biederman} and Vladimír {Čech}", title="Mechanical stability of titanium and plasma polymer nanoclusters in nanocomposite coatings", journal="Thin Solid Films", year="2013", volume="544", number="10", pages="593--596", issn="0040-6090" }