The limitations on applying classical thin plate theory to thin annular plates clamped on the inner boundary

The limitations on applying classical thin plate theory to thin annular plates clamped on the inner boundary

The experimentally measured resonance frequencies of a thin annular plate with a small ratio of inner to outer radii and clamped on the inner boundary are compared to the predictions of classical thin-plate (CTP) theory and a finite-element (FE) model. The results indicate that, contrary to the conc...

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Main Authors: Daniel W. Zietlow, Donald C. Griffin, Thomas R. Moore
Format: Article
Language:English
Published: AIP Publishing LLC 2012-12-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.4757928
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spelling doaj-3630ab8d07e84d7f997c208b81e30eae2020-11-24T22:39:12ZengAIP Publishing LLCAIP Advances2158-32262012-12-0124042103042103-810.1063/1.4757928003204ADVThe limitations on applying classical thin plate theory to thin annular plates clamped on the inner boundaryDaniel W. Zietlow0Donald C. Griffin1Thomas R. Moore2Department of Physics, Rollins College, Winter Park, FL 32789, USADepartment of Physics, Rollins College, Winter Park, FL 32789, USADepartment of Physics, Rollins College, Winter Park, FL 32789, USAThe experimentally measured resonance frequencies of a thin annular plate with a small ratio of inner to outer radii and clamped on the inner boundary are compared to the predictions of classical thin-plate (CTP) theory and a finite-element (FE) model. The results indicate that, contrary to the conclusions presented in a number of publications, CTP theory does not accurately predict the frequencies of a relatively small number of resonant modes at lower frequencies. It is shown that these inaccuracies are attributable to shear deformations, which are thought to be negligible in thin plates and are neglected in CTP theory. Of particular interest is the failure of CTP theory to accurately predict the resonance frequency of the lowest vibrational mode, which was shifted approximately 30% by shear motion at the inner boundary.http://dx.doi.org/10.1063/1.4757928
collection DOAJ
language English
format Article
sources DOAJ
author Daniel W. Zietlow
Donald C. Griffin
Thomas R. Moore
spellingShingle Daniel W. Zietlow
Donald C. Griffin
Thomas R. Moore
The limitations on applying classical thin plate theory to thin annular plates clamped on the inner boundary
AIP Advances
author_facet Daniel W. Zietlow
Donald C. Griffin
Thomas R. Moore
author_sort Daniel W. Zietlow
title The limitations on applying classical thin plate theory to thin annular plates clamped on the inner boundary
title_short The limitations on applying classical thin plate theory to thin annular plates clamped on the inner boundary
title_full The limitations on applying classical thin plate theory to thin annular plates clamped on the inner boundary
title_fullStr The limitations on applying classical thin plate theory to thin annular plates clamped on the inner boundary
title_full_unstemmed The limitations on applying classical thin plate theory to thin annular plates clamped on the inner boundary
title_sort limitations on applying classical thin plate theory to thin annular plates clamped on the inner boundary
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2012-12-01
description The experimentally measured resonance frequencies of a thin annular plate with a small ratio of inner to outer radii and clamped on the inner boundary are compared to the predictions of classical thin-plate (CTP) theory and a finite-element (FE) model. The results indicate that, contrary to the conclusions presented in a number of publications, CTP theory does not accurately predict the frequencies of a relatively small number of resonant modes at lower frequencies. It is shown that these inaccuracies are attributable to shear deformations, which are thought to be negligible in thin plates and are neglected in CTP theory. Of particular interest is the failure of CTP theory to accurately predict the resonance frequency of the lowest vibrational mode, which was shifted approximately 30% by shear motion at the inner boundary.
url http://dx.doi.org/10.1063/1.4757928
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