Detail publikačního výsledku
The critical influence of surface topography on nanoindentation measurements of a-SiC:H films
ČECH, V.; LASOTA, T.; PÁLESCH, E.; LUKEŠ, J.
Originální název
The critical influence of surface topography on nanoindentation measurements of a-SiC:H films
Anglický název
The critical influence of surface topography on nanoindentation measurements of a-SiC:H films
Druh
Článek WoS
Originální abstrakt
Hydrogenated amorphous silicon-carbon films were prepared on polished silicon wafers from a tetravinylsilane precursor via plasma-enhanced chemical vapor deposition. The grain structure was developed at the film surface using high powers (50-70 W), as observed by atomic force microscopy (AFM). Conventional and cyclic nanoindentation measurements revealed different mechanical responses for indentation into and outside of the selected isolated grain with a spherical cap geometry with a radius greater than that of the indenter (50 nm). The finite element method was employed to simulate the behavior of the grain under deformation by an indenter to correctly interpret the nanoindentation data. Scanning probe measurements using modulus mapping (dynamic mechanical analysis) and atomic force acoustic microscopy confirmed that the surface topography had a critical influence on the determined mechanical properties, which were significantly underestimated. Our experimental and simulation study demonstrates that nanoindentation and scanning probe measurements must be performed on strictly flat surfaces. This conclusion applies to all AFM measurements performed in contact and semi-contact mode used to characterize mechanical properties based on the geometry of the contact.
Anglický abstrakt
Hydrogenated amorphous silicon-carbon films were prepared on polished silicon wafers from a tetravinylsilane precursor via plasma-enhanced chemical vapor deposition. The grain structure was developed at the film surface using high powers (50-70 W), as observed by atomic force microscopy (AFM). Conventional and cyclic nanoindentation measurements revealed different mechanical responses for indentation into and outside of the selected isolated grain with a spherical cap geometry with a radius greater than that of the indenter (50 nm). The finite element method was employed to simulate the behavior of the grain under deformation by an indenter to correctly interpret the nanoindentation data. Scanning probe measurements using modulus mapping (dynamic mechanical analysis) and atomic force acoustic microscopy confirmed that the surface topography had a critical influence on the determined mechanical properties, which were significantly underestimated. Our experimental and simulation study demonstrates that nanoindentation and scanning probe measurements must be performed on strictly flat surfaces. This conclusion applies to all AFM measurements performed in contact and semi-contact mode used to characterize mechanical properties based on the geometry of the contact.
Klíčová slova
Thin films; Nanoindentation; Modulus mapping; Atomic force acoustic microscopy; Finite element method.
Klíčová slova v angličtině
Thin films; Nanoindentation; Modulus mapping; Atomic force acoustic microscopy; Finite element method.
Autoři
ČECH, V.; LASOTA, T.; PÁLESCH, E.; LUKEŠ, J.
Rok RIV
2016
Vydáno
15.01.2015
ISSN
0257-8972
Periodikum
SURFACE & COATINGS TECHNOLOGY
Svazek
261
Číslo
1
Stát
Švýcarská konfederace
Strany od
114
Strany do
121
Strany počet
8
URL
BibTex
@article{BUT117326,
author="Vladimír {Čech} and Tomáš {Lasota} and Erik {Pálesch} and Jaroslav {Lukeš}",
title="The critical influence of surface topography on nanoindentation measurements of a-SiC:H films",
journal="SURFACE & COATINGS TECHNOLOGY",
year="2015",
volume="261",
number="1",
pages="114--121",
doi="10.1016/j.surfcoat.2014.11.049",
issn="0257-8972",
url="http://www.sciencedirect.com/science/article/pii/S0257897214010706"
}