Analysis of static friction and elastic forces in a nanowire bent on a flat surface: A comparative study

M Antsov; L Dorogin; S Vlassov; B Polyakov; M Vahtrus; K Mougin; R Lohmus; I Kink

doi:10.1016/j.triboint.2013.12.010

Analysis of static friction and elastic forces in a nanowire bent on a flat surface: A comparative study

M Antsov
, L Dorogin
, S Vlassov
, B Polyakov
, M Vahtrus
, K Mougin
, R Lohmus
, I Kink

Research output: Contribution to journal › Article › Academic › peer-review

15 Citations (Scopus)

Abstract

ZnO nanowires bent to a complex shape and held in place by static friction force from supporting flat surface are investigated experimentally and theoretically. The complex shapes are obtained by bending the nanowires inside a scanning electron microscope with a sharp tip attached to a nanopositioner. Several methods previously described in the literature are applied along with author's original method to calculate the distributed friction force and stored elastic energy in the nanowires from the bending profile. This comparative study evidences the importance of the usage of appropriate models for accurate analysis of the nanowires profile. It is demonstrated that incomplete models can lead up to an order of magnitude error in the calculated friction force for complex profiles.

Original language	English
Pages (from-to)	31-34
Number of pages	4
Journal	Tribology international
Volume	72
DOIs	https://doi.org/10.1016/j.triboint.2013.12.010
Publication status	Published - Apr 2014
Externally published	Yes

Keywords

Elasticity
Nanomanipulation
Static friction
ZnO nanowire
n/a OA procedure

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10.1016/j.triboint.2013.12.010

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abstract = "ZnO nanowires bent to a complex shape and held in place by static friction force from supporting flat surface are investigated experimentally and theoretically. The complex shapes are obtained by bending the nanowires inside a scanning electron microscope with a sharp tip attached to a nanopositioner. Several methods previously described in the literature are applied along with author's original method to calculate the distributed friction force and stored elastic energy in the nanowires from the bending profile. This comparative study evidences the importance of the usage of appropriate models for accurate analysis of the nanowires profile. It is demonstrated that incomplete models can lead up to an order of magnitude error in the calculated friction force for complex profiles.",

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AU - Antsov, M

AU - Dorogin, L

AU - Vlassov, S

AU - Polyakov, B

AU - Vahtrus, M

AU - Mougin, K

AU - Lohmus, R

AU - Kink, I

PY - 2014/4

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AB - ZnO nanowires bent to a complex shape and held in place by static friction force from supporting flat surface are investigated experimentally and theoretically. The complex shapes are obtained by bending the nanowires inside a scanning electron microscope with a sharp tip attached to a nanopositioner. Several methods previously described in the literature are applied along with author's original method to calculate the distributed friction force and stored elastic energy in the nanowires from the bending profile. This comparative study evidences the importance of the usage of appropriate models for accurate analysis of the nanowires profile. It is demonstrated that incomplete models can lead up to an order of magnitude error in the calculated friction force for complex profiles.

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KW - n/a OA procedure

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Analysis of static friction and elastic forces in a nanowire bent on a flat surface: A comparative study

Abstract

Keywords

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