Identification Method for Flexure and Shear Behavior of Cantilever Structures

Identification Method for Flexure and Shear Behavior of Cantilever Structures

This article presents an original identification method for the assessment of flexure and shear stiffness of cantilever structures or shear wall buildings. Required data include an initial (theoretical) model, an estimation of lumped mass values (by floor) and an experimental evaluation of two eigen...

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Main Authors: F. Garcés, C. Genatios, P. García, A. Mebarki, M. Lafuente
Format: Article
Language:English
Published: Hindawi Limited 2009-01-01
Series:Shock and Vibration
Online Access:http://dx.doi.org/10.3233/SAV-2009-0476
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spelling doaj-d1974b50bd034fa78797861f30d303992020-11-24T22:43:52ZengHindawi LimitedShock and Vibration1070-96221875-92032009-01-0116438940010.3233/SAV-2009-0476Identification Method for Flexure and Shear Behavior of Cantilever StructuresF. Garcés0C. Genatios1P. García2A. Mebarki3M. Lafuente4IMME, University Central of Venezuela. IMME-UCV, apto postal 50.361, Caracas 1050-A, VenezuelaIMME, University Central of Venezuela. IMME-UCV, apto postal 50.361, Caracas 1050-A, VenezuelaIMME, University Central of Venezuela. IMME-UCV, apto postal 50.361, Caracas 1050-A, VenezuelaLaboratoire de Mécanique, University of Marné la Vallée, Laboratoire de Mécanique, Université de Marne la Vallée (France), 5 Bd Descartes, Cité Descartes, 77454 Marne la-Vallée, Cedex 2, FranceIMME, University Central of Venezuela. IMME-UCV, apto postal 50.361, Caracas 1050-A, VenezuelaThis article presents an original identification method for the assessment of flexure and shear stiffness of cantilever structures or shear wall buildings. Required data include an initial (theoretical) model, an estimation of lumped mass values (by floor) and an experimental evaluation of two eigenvalues (modal frequencies and their modal shapes). The method estimates coefficients whenever flexural (EI) or shear (GA) values are relevant or irrelevant. An initial formula includes both shear and flexural components. Furthermore, particular developments are carried out for particular cases of irrelevant shear or flexural deformations. A numerical simulation of a real chimney is performed to study the effectiveness of the methodology in identifying damage under noise conditions. A dynamic-test experiment is carried out on a steel cantilever which suffers damage in two sections. The result obtained from the application of the proposed methodology is satisfactory in both numerical and experimental cases, identifying precisely the stiffness changes in the system.http://dx.doi.org/10.3233/SAV-2009-0476
collection DOAJ
language English
format Article
sources DOAJ
author F. Garcés
C. Genatios
P. García
A. Mebarki
M. Lafuente
spellingShingle F. Garcés
C. Genatios
P. García
A. Mebarki
M. Lafuente
Identification Method for Flexure and Shear Behavior of Cantilever Structures
Shock and Vibration
author_facet F. Garcés
C. Genatios
P. García
A. Mebarki
M. Lafuente
author_sort F. Garcés
title Identification Method for Flexure and Shear Behavior of Cantilever Structures
title_short Identification Method for Flexure and Shear Behavior of Cantilever Structures
title_full Identification Method for Flexure and Shear Behavior of Cantilever Structures
title_fullStr Identification Method for Flexure and Shear Behavior of Cantilever Structures
title_full_unstemmed Identification Method for Flexure and Shear Behavior of Cantilever Structures
title_sort identification method for flexure and shear behavior of cantilever structures
publisher Hindawi Limited
series Shock and Vibration
issn 1070-9622
1875-9203
publishDate 2009-01-01
description This article presents an original identification method for the assessment of flexure and shear stiffness of cantilever structures or shear wall buildings. Required data include an initial (theoretical) model, an estimation of lumped mass values (by floor) and an experimental evaluation of two eigenvalues (modal frequencies and their modal shapes). The method estimates coefficients whenever flexural (EI) or shear (GA) values are relevant or irrelevant. An initial formula includes both shear and flexural components. Furthermore, particular developments are carried out for particular cases of irrelevant shear or flexural deformations. A numerical simulation of a real chimney is performed to study the effectiveness of the methodology in identifying damage under noise conditions. A dynamic-test experiment is carried out on a steel cantilever which suffers damage in two sections. The result obtained from the application of the proposed methodology is satisfactory in both numerical and experimental cases, identifying precisely the stiffness changes in the system.
url http://dx.doi.org/10.3233/SAV-2009-0476
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AT cgenatios identificationmethodforflexureandshearbehaviorofcantileverstructures
AT pgarcia identificationmethodforflexureandshearbehaviorofcantileverstructures
AT amebarki identificationmethodforflexureandshearbehaviorofcantileverstructures
AT mlafuente identificationmethodforflexureandshearbehaviorofcantileverstructures
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