A bridge-vehicle interaction based experimental investigation of damage evolution

dc.contributor.authorPakrashi, Vikram
dc.contributor.authorO'Connor, Alan J.
dc.contributor.authorBasu, Biswajit
dc.date.accessioned2011-04-21T11:02:27Z
dc.date.available2011-04-21T11:02:27Z
dc.date.issued2010-07
dc.date.updated2010-10-07T14:20:25Z
dc.description.abstractThis article presents an experimental monitoring of the evolution of a crack in a beam using beam-vehicle interaction response signals for identification of progressively increasing crack-depth ratios. The beam is traversed by a two-axle model vehicle providing excitation in the time domain for the various extents of damage. The response of the beam in the time domain during the period of forced vibration is measured using strain gages. A consistent evolution of damage has been demonstrated in terms of the maxima values of the measured responses. The corresponding distortions of wavelet coefficients of the measured strain data due to the presence of various levels of damage have been identified. The evolution of the phase space and the wavelet transformed phase spaces have been evaluated with damage evolution. The wavelet transformed phase spaces for the undamaged and the damaged cases are observed to be distinctly different at high scales. The importance of denoising of the acquired data and the importance of vehicle configuration has been illustrated. This study presents a basis for a general model free damage assessment and structural health monitoring framework. The study presented is particularly useful in the context of continuous online bridge health monitoring, since the data necessary for analysis can be obtained from the operating condition of the bridge and the structure does not need be closed down.en
dc.description.statusPeer revieweden
dc.description.versionAccepted Versionen
dc.format.mimetypeapplication/pdfen
dc.identifier.citationPakrashi, V., O'Connor A.J., Basu B., 2010. A bridge-vehicle interaction based experimental investigation of damage evolution. Structural Health Monitoring, 9 (4):285-296.en
dc.identifier.doi10.1177/1475921709352147
dc.identifier.endpage296en
dc.identifier.issn1475-9217
dc.identifier.issn1741-3168
dc.identifier.issued4en
dc.identifier.journaltitleStructural Health Monitoringen
dc.identifier.startpage285en
dc.identifier.urihttps://hdl.handle.net/10468/292
dc.identifier.volume9en
dc.language.isoenen
dc.publisherSage Publicationsen
dc.relation.urihttp://shm.sagepub.com/content/9/4/285.abstract?rss=1
dc.rights© The Author(s), 2010. Reprints and permissions: http://www.sagepub.co.uk/journalsPermissions.naven
dc.rights.urihttp://www.sagepub.co.uk/journalsPermissions.naven
dc.subjectWavelet coefficient mapsen
dc.subjectDistorted ridges and skeletonsen
dc.subjectWavelet transformed phase spaceen
dc.subjectDamage evolutionen
dc.subjectBridge-vehicle interactionen
dc.subject.lcshBridges--Testingen
dc.subject.lcshStructural health monitoringen
dc.titleA bridge-vehicle interaction based experimental investigation of damage evolutionen
dc.typeArticle (peer-reviewed)en
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