Nanoindentation unidirectional sliding and lateral force microscopy: Evaluation of experimental techniques to measure friction at the nanoscale

Nanoindentation unidirectional sliding and lateral force microscopy: Evaluation of experimental techniques to measure friction at the nanoscale

Lateral force microscopy (LFM) is an established technique to assess friction forces at the nanoscale. Nanoindentation followed by unidirectional sliding (NUS) is also used to evaluate friction forces at the micro/nanoscale. However, comparative studies between NUS and LFM evaluating the experimenta...

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Published in:AIP advances Vol. 8; no. 12; pp. 125013 - 125013-10
Main Authors: Echeverrigaray, F. G., Sales de Mello, S. R., Boeira, C. D., Leidens, L. M., Maia da Costa, M. E. H., Freire, F. L., Alvarez, F., Michels, A. F., Figueroa, C. A.
Format: Journal Article
Language:English
Published: Melville American Institute of Physics 01-12-2018
AIP Publishing LLC
Subjects:
Comparative studies
Correlation analysis
Damping
Friction
Microscopy
Nanoindentation
Sliding
Thin films
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Abstract Lateral force microscopy (LFM) is an established technique to assess friction forces at the nanoscale. Nanoindentation followed by unidirectional sliding (NUS) is also used to evaluate friction forces at the micro/nanoscale. However, comparative studies between NUS and LFM evaluating the experimental results at different scales are still missing. In this work, a-C:D/H and a-C:H thin films with different [D]/[C] and [H]/[C] contents were used to analyze the friction forces by NUS and LFM. The results show that the friction behavior assessed by these two techniques in different scales is the same. The correlation between friction forces measured by NUS and LFM depends mainly on a contact area factor that makes invariant the friction force from nanoscale to microscale. Such behavior suggests a similar damping mechanism, probably phonon-coupling phenomena, for the friction force origin.
AbstractList Lateral force microscopy (LFM) is an established technique to assess friction forces at the nanoscale. Nanoindentation followed by unidirectional sliding (NUS) is also used to evaluate friction forces at the micro/nanoscale. However, comparative studies between NUS and LFM evaluating the experimental results at different scales are still missing. In this work, a-C:D/H and a-C:H thin films with different [D]/[C] and [H]/[C] contents were used to analyze the friction forces by NUS and LFM. The results show that the friction behavior assessed by these two techniques in different scales is the same. The correlation between friction forces measured by NUS and LFM depends mainly on a contact area factor that makes invariant the friction force from nanoscale to microscale. Such behavior suggests a similar damping mechanism, probably phonon-coupling phenomena, for the friction force origin.
Author Figueroa, C. A.
Leidens, L. M.
Maia da Costa, M. E. H.
Sales de Mello, S. R.
Freire, F. L.
Alvarez, F.
Michels, A. F.
Boeira, C. D.
Echeverrigaray, F. G.
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Snippet Lateral force microscopy (LFM) is an established technique to assess friction forces at the nanoscale. Nanoindentation followed by unidirectional sliding (NUS)...
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SubjectTerms Comparative studies
Correlation analysis
Damping
Friction
Microscopy
Nanoindentation
Sliding
Thin films
Title Nanoindentation unidirectional sliding and lateral force microscopy: Evaluation of experimental techniques to measure friction at the nanoscale
URI http://dx.doi.org/10.1063/1.5047801
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