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Détail de l'auteur
Auteur A. T. Savadkoohi
Documents disponibles écrits par cet auteur
Affiner la rechercheDamage identification of a 3D full scale steel-concrete composite structure with partial-strength joints at different pseudo-dynamic load levels / M. Molinari in Earthquake engineering structural dynamics, Vol. 38 N° 10 (Août 2009)
[article]
in Earthquake engineering structural dynamics > Vol. 38 N° 10 (Août 2009) . - pp. 1219-1236
Titre : Damage identification of a 3D full scale steel-concrete composite structure with partial-strength joints at different pseudo-dynamic load levels Type de document : texte imprimé Auteurs : M. Molinari, Auteur ; A. T. Savadkoohi, Auteur ; O. S. Bursi, Auteur Article en page(s) : pp. 1219-1236 Note générale : Génie Civil Langues : Anglais (eng) Mots-clés : Damage assessment; Pseudo-dynamic tests; Model updating ; Sensitivity analysis Index. décimale : 624.1 Infrastructures.Ouvrages en terre. Fondations. Tunnels Résumé : Partial-strength composite steel-concrete moment-resisting (MR) frame structures represent an open research field in seismic design from both a theoretical and an experimental standpoint. Among experimental techniques, vibration testing is a well-known and powerful technique for damage detection, localization and quantification, where actual modal parameters of a structure at different states can be determined from test data by using system identification methods. However, the identification of semi-rigid connections in framed structures is limited, and hence this paper focuses on a series of vibration experiments that were carried out on a realistic MR frame structure, following the application of pseudo-dynamic and quasi-static cyclic loadings at the European laboratory for structural assessment of the Joint Research Centre at Ispra, Italy, with the scope of understanding the structural behaviour and identifying changes in the dynamic response. From the forced vibration response, natural frequencies, damping ratios, modal displacements and rotations were extracted using the circle fitting technique. These modal parameters were used for local and global damage identification by updating a 3D finite element model of the intact structure. The identified results were then correlated with observations performed on the structure to understand further the underlying damage mechanisms. Finally, the latin hypercube sampling technique, a variant of the Monte Carlo method, was employed in order to study the sensitivity of the updated parameters of the 3D model to noise on the modal inputs. ISSN : 0098-8847 En ligne : www.interscience.wiley.com/journal/eqe [article] Damage identification of a 3D full scale steel-concrete composite structure with partial-strength joints at different pseudo-dynamic load levels [texte imprimé] / M. Molinari, Auteur ; A. T. Savadkoohi, Auteur ; O. S. Bursi, Auteur . - pp. 1219-1236.
Génie Civil
Langues : Anglais (eng)
in Earthquake engineering structural dynamics > Vol. 38 N° 10 (Août 2009) . - pp. 1219-1236
Mots-clés : Damage assessment; Pseudo-dynamic tests; Model updating ; Sensitivity analysis Index. décimale : 624.1 Infrastructures.Ouvrages en terre. Fondations. Tunnels Résumé : Partial-strength composite steel-concrete moment-resisting (MR) frame structures represent an open research field in seismic design from both a theoretical and an experimental standpoint. Among experimental techniques, vibration testing is a well-known and powerful technique for damage detection, localization and quantification, where actual modal parameters of a structure at different states can be determined from test data by using system identification methods. However, the identification of semi-rigid connections in framed structures is limited, and hence this paper focuses on a series of vibration experiments that were carried out on a realistic MR frame structure, following the application of pseudo-dynamic and quasi-static cyclic loadings at the European laboratory for structural assessment of the Joint Research Centre at Ispra, Italy, with the scope of understanding the structural behaviour and identifying changes in the dynamic response. From the forced vibration response, natural frequencies, damping ratios, modal displacements and rotations were extracted using the circle fitting technique. These modal parameters were used for local and global damage identification by updating a 3D finite element model of the intact structure. The identified results were then correlated with observations performed on the structure to understand further the underlying damage mechanisms. Finally, the latin hypercube sampling technique, a variant of the Monte Carlo method, was employed in order to study the sensitivity of the updated parameters of the 3D model to noise on the modal inputs. ISSN : 0098-8847 En ligne : www.interscience.wiley.com/journal/eqe