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dc.contributor.authorMuñoz Beltrán, Rafael 
dc.contributor.authorBochud, Nicolás
dc.contributor.authorRus Carlborg, Guillermo 
dc.contributor.authorPeralta, Laura
dc.contributor.authorMelchor Rodríguez, Juan Manuel 
dc.contributor.authorChiachío Ruano, Juan 
dc.contributor.authorChiachío Ruano, Manuel 
dc.contributor.authorBond, Leonard J.
dc.date.accessioned2024-02-12T08:52:50Z
dc.date.available2024-02-12T08:52:50Z
dc.date.issued2015-03-31
dc.identifier.citationRafael Munoz, Nicolas Bochud, Guillermo Rus, Laura Peralta, Juan Melchor, Juan Chiachío, Manuel Chiachío, Leonard J. Bond; Model-based damage evaluation of layered CFRP structures. AIP Conf. Proc. 31 March 2015; 1650 (1): 1170–1177. https://doi.org/10.1063/1.4914727es_ES
dc.identifier.issn0094-243X
dc.identifier.urihttps://hdl.handle.net/10481/88998
dc.descriptionAuthors are grateful to Dr. H. Schmutzler from the Institute of Polymers and Composites, TU Hamburg, Germany, for providing us the damaged CFRP plate.es_ES
dc.description.abstractAn ultrasonic evaluation technique for damage identification of layered CFRP structures is presented. This approach relies on a model-based estimation procedure that combines experimental data and simulation of ultrasonic damage-propagation interactions. The CFPR structure, a [0/90]4s lay-up, has been tested in an immersion through transmission experiment, where a scan has been performed on a damaged specimen. Most ultrasonic techniques in industrial practice consider only a few features of the received signals, namely, time of flight, amplitude, attenuation, frequency contents, and so forth. In this case, once signals are captured, an algorithm is used to reconstruct the complete signal waveform and extract the unknown damage parameters by means of modeling procedures. A linear version of the data processing has been performed, where only Young modulus has been monitored and, in a second nonlinear version, the first order nonlinear coefficient β was incorporated to test the possibility of detection of early damage. The aforementioned physical simulation models are solved by the Transfer Matrix formalism, which has been extended from linear to nonlinear harmonic generation technique. The damage parameter search strategy is based on minimizing the mismatch between the captured and simulated signals in the time domain in an automated way using Genetic Algorithms. Processing all scanned locations, a C-scan of the parameter of each layer can be reconstructed, obtaining the information describing the state of each layer and each interface. Damage can be located and quantified in terms of changes in the selected parameter with a measurable extension. In the case of the nonlinear coefficient of first order, evidence of higher sensitivity to damage than imaging the linearly estimated Young Modulus is provided.es_ES
dc.description.sponsorshipMinisterio de Economía y Competitividad for project DPI2010-17065es_ES
dc.description.sponsorshipJunta de Andalucía for projects P11-CTS-8089 and GGI3000IDIBes_ES
dc.description.sponsorshipEuropean Union for the 'Programa Operativo FEDER de Andalucía 2007-2013'.es_ES
dc.language.isoenges_ES
dc.publisherAIP Publishinges_ES
dc.relation.ispartofseries41st Annual Review of Progress in Quantitative Nondesctructive Evaluation 20–25 July 2014 Boise, Idaho;Volume 34
dc.rightsAtribución-NoComercial-CompartirIgual 4.0 Internacional*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-sa/4.0/*
dc.subjectNonlinear ultrasonicses_ES
dc.subjectCarbon Fibre Reinforced Polymer CFRPes_ES
dc.subjectNondesctuctive evaluationes_ES
dc.subjectModel-based evaluationes_ES
dc.titleModel-based damage evaluation of layered CFRP structureses_ES
dc.typejournal articlees_ES
dc.rights.accessRightsopen accesses_ES
dc.identifier.doi10.1063/1.4914727
dc.type.hasVersionVoRes_ES


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