The axisymmetric shrink fit problem subjected to axial force

A solution for the stress fields in a shaft-hub shrink-fit assembly subjected to an axial force is presented. The assembly is modelled as a semi-infinite shaft embedded within an elastic half-space. The stress field for a bilateral solution is obtained, considering that the contact interface is ever...

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Автори: Lopes, J, Hills, D, Paynter, R
Формат: Journal article
Опубліковано: Elsevier 2018
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author Lopes, J
Hills, D
Paynter, R
author_facet Lopes, J
Hills, D
Paynter, R
author_sort Lopes, J
collection OXFORD
description A solution for the stress fields in a shaft-hub shrink-fit assembly subjected to an axial force is presented. The assembly is modelled as a semi-infinite shaft embedded within an elastic half-space. The stress field for a bilateral solution is obtained, considering that the contact interface is everywhere subjected to pressure and that the coefficient of friction is sufficient to prevent slip everywhere. This solution is then corrected to satisfy the slip condition using an array of strain nuclei in the form of glide ring dislocations. The contact pressure, shear traction and their ratio is presented as a function of the coefficient of friction and the ratio of shrink-fit to axial force stresses. Finally, the solution is extended to a finite shaft.
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spelling oxford-uuid:32cd1e23-2f94-4bec-bf05-14ea02dfdea82022-03-26T13:16:27ZThe axisymmetric shrink fit problem subjected to axial forceJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:32cd1e23-2f94-4bec-bf05-14ea02dfdea8Symplectic Elements at OxfordElsevier2018Lopes, JHills, DPaynter, RA solution for the stress fields in a shaft-hub shrink-fit assembly subjected to an axial force is presented. The assembly is modelled as a semi-infinite shaft embedded within an elastic half-space. The stress field for a bilateral solution is obtained, considering that the contact interface is everywhere subjected to pressure and that the coefficient of friction is sufficient to prevent slip everywhere. This solution is then corrected to satisfy the slip condition using an array of strain nuclei in the form of glide ring dislocations. The contact pressure, shear traction and their ratio is presented as a function of the coefficient of friction and the ratio of shrink-fit to axial force stresses. Finally, the solution is extended to a finite shaft.
spellingShingle Lopes, J
Hills, D
Paynter, R
The axisymmetric shrink fit problem subjected to axial force
title The axisymmetric shrink fit problem subjected to axial force
title_full The axisymmetric shrink fit problem subjected to axial force
title_fullStr The axisymmetric shrink fit problem subjected to axial force
title_full_unstemmed The axisymmetric shrink fit problem subjected to axial force
title_short The axisymmetric shrink fit problem subjected to axial force
title_sort axisymmetric shrink fit problem subjected to axial force
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AT hillsd axisymmetricshrinkfitproblemsubjectedtoaxialforce
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