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Modélisation du comportement sismique du Génie Civil des installations nucléaires existantes

Published online by Cambridge University Press:  21 June 2007

Didier Combescure*
Affiliation:
CEA Saclay, DEN/DM2S/SEMT, 91191 Gif-sur-Yvette, France
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Abstract

Dans les pays européens à sismicité modérée comme la France, la plupart des bâtiments en béton armé a été construite avant l'application des normes parasismiques modernes. En raison de l'absence de prise en compte du séisme lors de leur dimensionnement ou de la modification de l'aléa sismique, de nombreuses structures en béton armé ne respectent pas les normes actuelles sans être pour autant moins sûres. Pour des raisons de sûreté, les structures industrielles et nucléaires font l'objet de réévaluations sismiques régulières. L'application des méthodes de dimensionnement donne des résultats irréalistes et surtout peuvent occulter les points faibles de la structure. Cet article présente les modèles non-linéaires utilisés lors de réévaluations sismiques. Ces modélisations ont été appliquées à la modélisation de structures portique et de nœuds d'ossature testées sur table vibrante à Saclay et sur le mur de réaction du CCR d'Ispra.

Type
Research Article
Copyright
© AFM, EDP Sciences, 2007

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References

CAST3M, Site Internet : http://www-cast3m.cea.fr/ cast3m/index.jsp
D. Combescure, Modélisation du comportement sismique des structures portiques comportant des murs de remplissage, Thèse de l'École Centrale Paris, 1996
Combescure, D., Pegon, P., Application of the local-to-global approach to the study of infilled frame structures under seismic loading, Nuclear Engineering and Design 196 (2000) 1740 CrossRef
D. Combescure, Some contributions of physical and numerical modelling to the assessment of existing masonry infilled RC frames under extreme loading, Special Theme Session: “Analysis and Design of RC Frames with Masonry Infills”, First European Conference on Earthquake Engineering and Seismology, Genève, Suisse, 2006
J. Guedes, Seismic behaviour of reinforced concrete bridges. Modelling, numerical analysis and experimental assessment, Thèse de doctorat de l'Université de Porto, 1997
E. Spacone, F.C. Filippou, F.F. Taucer, Fibre Beam-Column Model for Non-linear Analysis of R/C frames: Part I, Formulation, Earthquake Engineering and Structural Dynamics (1996) 711–725
Petrangeli, M., Pinto, P.E., Ciampi, V., Fiber element for cyclic bending and shear of R/C structures. I: Theory, J. Engineering Mechnics, ASCE 125 (1999) 9941001
L. Martinelli, The behaviour of RC piers under strong seismic actions, 12th World Conference on Earthquake Engineering, Auckland, 2000
Kotronis, P., Ragueneau, F., Mazars, J., A simplified modelling strategy for R/C walls satisfying PS92 and EC8 design, Engineering Structures 27 (2005) 11971208 CrossRef
Mazars, J., Kotronis, P., Ragueneau, F., Casaux, G., Using multifiber beams to account for shear and torsion. Applications to concrete structural elements, Comput. Methods Appl. Mech. Engrg. 195 (2006) 72647281 CrossRef
D. Combescure, Modélisation des structures de génie civil sous chargement sismique à l'aide de Castem 2000, Rapport DM2S/SEMT/EMSI/RT/01-008/A, 2001 (disponible sur le site Cast3M)
Priestley, N., Displacement based seismic assessment of reinforced concrete buildings, J. Earthquake Engineering 1 (1997) 157192
BAEL 91, Règles techniques de conception et de calcul des ouvrages et constructions en béton armé suivant la méthode des états limites, Eyrolles, juillet 1992
EC8, ENV 1998-1-3, EUROCODE 8, Design provisions for earthquake resistance of structures- Part 1-3: General rules – Specific rules for various materials and elements, CEN, 1998
G.M. Calvi, A displacement-based approach for vulnerability evaluation of classes of buildings, J. Earthquake Engineering 3 (1999)
J. Donea, P. Magonette, P. Negro, P. Pegon, A.V. Pinto, G. Verzeletti, Pseudodynamic testing of large scale models of civil engineering structures at ELSA reaction wall, 10th European Conference on Earthquake Engineering, Vienna, 1990
G.M. Calvi, M. Recla, Assessment of current prediction capacities of the response of existing reinforced concrete buildings, 12th World Conference of Earthquake Engineering, Auckland, 2000
G. Monti, Consistent insertion of bond-slip into beam fiber elements for biaxial bending, 12th World Conference on Earthquake Engineering, Auckland, 2000
Y. Xiao, R. Ma, Seismic retrofit of RC circular columns using prefabricated composite jacketing, J. Structural Engineering, 23 (1997)
R. Eligehausen, G.L. Balazs Bond and detailing. In Bulletin d'Information CEB N°217, Comité Euro-International du Béton, 1993
R. Aboutaha, Seismic retrofit of non-ductile reinforced concrete columns using rectangular steel jackets. PhD Thesi dissertation, Austin University, 1996
D. Combescure, P. Sollogoub, Seismic assessment of existing nuclear facility using non linear modelling. Some general consideration and examples of validation on experimental results, 12th Earthquake Engineering European Conference, London, 2002 et OCDE-NEA Workshop on the Seismic reevaluation of all Nuclear Facilities, Ispra, 26–27 March 2001, Italy
FEMA 273-NEHRP Guidelines for the Seismic Rehabilitation of Buildings, Federal Emergency Management Agency, 1997