Influence of tangential displacement on the adhesion strength of a contact between a parabolic profile and an elastic half-space

Influence of tangential displacement on the adhesion strength of a contact between a parabolic profile and an elastic half-space

The adhesion strength of a contact between a rotationally symmetric indenter and an elastic half-space is analysed analytically and numerically using an extension of the method of dimensionality reduction for superimposed normal/tangential adhesive contacts. In particular, the dependence of the crit...

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Main Authors: Valentin L. Popov, Iakov A. Lyashenko, Alexander E. Filippov
Format: Article
Language:English
Published: The Royal Society 2017-01-01
Series:Royal Society Open Science
Subjects:
adhesion
friction
tribology
shear force
numerical simulation
method of dimensionality reduction
Online Access:https://royalsocietypublishing.org/doi/pdf/10.1098/rsos.161010
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spelling doaj-a43bf32369ee4d9bb37c8dcb7ec0601c2020-11-25T04:02:08ZengThe Royal SocietyRoyal Society Open Science2054-57032017-01-014810.1098/rsos.161010161010Influence of tangential displacement on the adhesion strength of a contact between a parabolic profile and an elastic half-spaceValentin L. PopovIakov A. LyashenkoAlexander E. FilippovThe adhesion strength of a contact between a rotationally symmetric indenter and an elastic half-space is analysed analytically and numerically using an extension of the method of dimensionality reduction for superimposed normal/tangential adhesive contacts. In particular, the dependence of the critical adhesion force on the simultaneously applied tangential force is obtained and the relevant dimensionless parameters of the problem are identified. The fracture criterion used coincides with that suggested by Johnson. In this paper, it is used to develop a method that is applicable straightforwardly to adhesive contacts of arbitrary bodies of revolution with compact contact area.https://royalsocietypublishing.org/doi/pdf/10.1098/rsos.161010adhesionfrictiontribologyshear forcenumerical simulationmethod of dimensionality reduction
collection DOAJ
language English
format Article
sources DOAJ
author Valentin L. Popov
Iakov A. Lyashenko
Alexander E. Filippov
spellingShingle Valentin L. Popov
Iakov A. Lyashenko
Alexander E. Filippov
Influence of tangential displacement on the adhesion strength of a contact between a parabolic profile and an elastic half-space
Royal Society Open Science
adhesion
friction
tribology
shear force
numerical simulation
method of dimensionality reduction
author_facet Valentin L. Popov
Iakov A. Lyashenko
Alexander E. Filippov
author_sort Valentin L. Popov
title Influence of tangential displacement on the adhesion strength of a contact between a parabolic profile and an elastic half-space
title_short Influence of tangential displacement on the adhesion strength of a contact between a parabolic profile and an elastic half-space
title_full Influence of tangential displacement on the adhesion strength of a contact between a parabolic profile and an elastic half-space
title_fullStr Influence of tangential displacement on the adhesion strength of a contact between a parabolic profile and an elastic half-space
title_full_unstemmed Influence of tangential displacement on the adhesion strength of a contact between a parabolic profile and an elastic half-space
title_sort influence of tangential displacement on the adhesion strength of a contact between a parabolic profile and an elastic half-space
publisher The Royal Society
series Royal Society Open Science
issn 2054-5703
publishDate 2017-01-01
description The adhesion strength of a contact between a rotationally symmetric indenter and an elastic half-space is analysed analytically and numerically using an extension of the method of dimensionality reduction for superimposed normal/tangential adhesive contacts. In particular, the dependence of the critical adhesion force on the simultaneously applied tangential force is obtained and the relevant dimensionless parameters of the problem are identified. The fracture criterion used coincides with that suggested by Johnson. In this paper, it is used to develop a method that is applicable straightforwardly to adhesive contacts of arbitrary bodies of revolution with compact contact area.
topic adhesion
friction
tribology
shear force
numerical simulation
method of dimensionality reduction
url https://royalsocietypublishing.org/doi/pdf/10.1098/rsos.161010
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AT iakovalyashenko influenceoftangentialdisplacementontheadhesionstrengthofacontactbetweenaparabolicprofileandanelastichalfspace
AT alexanderefilippov influenceoftangentialdisplacementontheadhesionstrengthofacontactbetweenaparabolicprofileandanelastichalfspace
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