Comparison between seismic vulnerability models and experimental dynamic properties of existing buildings in France

Elastic fundamental frequency is a key-parameter of simplified seismic design and vulnerability assessment methods. Empirical relationships exist in codes to estimate this frequency but they miss experimental data to validate them accounting for national feature of building design and, above all, corresponding uncertainties. Even if resonance frequency extracted from ambient vibrations may be larger than the elastic frequency (at yield) generally used in earthquake engineering, ambient vibration recordings may provide a large set of data for statistical analysis of periods versus building characteristics relationships. We recorded ambient vibrations and estimated the fundamental frequency of about 60 buildings of various types (RC and masonry) in Grenoble City (France). These data complete the set existing yet, made of 26 RC-buildings of Grenoble (Farsi and Bard 2004) and 28 buildings in Nice (France) (Dunand 2005). Statistical analysis of these experimental data was performed for fundamental frequencies of RC shear wall structures and the results are compared with existing relationships. Only building height or number of stories has a statistical relevancy to estimate the resonance frequency but the variability associated to the proposed relationships is large. Moreover, we compared the elastic part of capacity curves of RC and masonry buildings used in the European Risk-UE method for vulnerability assessment with the experimental frequencies. The variability is also large and the curves may not be consistent with French existing buildings.

[1]  Claude Boutin,et al.  In situ experiments and seismic analysis of existing buildings. Part I: experimental investigations , 2005 .

[2]  Maria I. Todorovska,et al.  Soil-Structure System Identification of Millikan Library North–South Response during Four Earthquakes (1970–2002): What Caused the Observed Wandering of the System Frequencies? , 2009 .

[3]  Gian Michele CALVI,et al.  State-of-the- knowledge on the period elongation of RC buildings during strong ground shaking , 2006 .

[4]  Anil K. Chopra,et al.  PERIOD FORMULAS FOR CONCRETE SHEAR WALL BUILDINGS , 1998 .

[5]  A. Shakal,et al.  CSMIP (California Strong Motion Instrumentation Program) strong-motion records from the Santa Cruz Mountains (Loma Prieta), California earthquake of 17 October 1989 , 1990 .

[6]  Young-Soo Chun,et al.  Experimental formula for the fundamental period of RC buildings with shear-wall dominant systems , 2000 .

[7]  Andreas J. Kappos,et al.  A hybrid method for the vulnerability assessment of R/C and URM buildings , 2006 .

[8]  A. G. Brady,et al.  Natural Periods of Vibration of Buildings , 1963 .

[9]  Rune Brincker,et al.  Modal identification of output-only systems using frequency domain decomposition , 2001 .

[10]  Dean S. Carder,et al.  Observed vibrations of buildings , 1936 .

[11]  S. Lagomarsino,et al.  Macroseismic and mechanical models for the vulnerability and damage assessment of current buildings , 2006 .

[12]  François Dunand Pertinence du bruit de fond sismique pour la caractérisation dynamique et l'aide au diagnostic sismique des structures de génie civil , 2005 .

[13]  Pierino Lestuzzi Effective Stiffness of RC Walls in Dynamic Tests , 2002 .

[14]  Rui Pinho,et al.  Revisiting Eurocode 8 formulae for periods of vibration and their employment in linear seismic analysis , 2009 .

[15]  R. Sharpe Tentative Provisions for the Development of Seismic Regulations for Buildings , 1994 .

[16]  P. Guéguen,et al.  A simplified approach for vulnerability assessment in moderate-to-low seismic hazard regions: application to Grenoble (France) , 2007 .

[17]  Pierre-Yves Bard,et al.  Estimation des périodes propres de bâtiments et vulnérabilité du bâti existant dans l'agglomération de Grenoble , 2004 .

[18]  Clotaire Michel,et al.  Dynamic parameters of structures extracted from ambient vibration measurements : An aid for the seismic vulnerability assessment of existing buildings in moderate seismic hazard regions , 2007, 0710.1210.

[19]  M. Fardis,et al.  Designer's guide to EN 1998-1 and en 1998-5 Eurocode 8: Design of structures for earthquake resistance; general rules, seismic actions, design rules for buildings, foundations and retaining structures/ M.Fardis[et al.] , 2005 .

[20]  H. Crowley,et al.  DISPLACEMENT-BASED EARTHQUAKE LOSS ASSESSMENT OF TURKISH MASONRY STRUCTURES , 2008 .

[21]  Masayoshi Matsubara,et al.  DEVELOPMENT OF PORTABLE MEASUREMENT SYSTEM FOR AMBIENT VIBRATION TEST OF BUILDING , 1987 .

[22]  M. Çelebi,et al.  COIMPARISON OF THE DYNAMIC PARAMETERS EXTRACTED FROM WEAK , MODERATE AND STRONG MOTION RECORDED IN BUILDINGS , 2006 .

[23]  Philippe Guéguen,et al.  CityShark: A User-friendly Instrument Dedicated to Ambient Noise (Microtremor) Recording for Site and Building Response Studies , 2000 .

[24]  中村 友紀子,et al.  強震動時におけるRC建物の固有周期の変化に関する知見, Gian Michele Calvi, Rui Pinho, and Helen Crwley: State-of-the-knowlwedge on the period elongation of RC buildings during strong ground shaking [First European Conference on Earthquake Engineering and Seismology, September 2006, paper # 1535](構造,文献抄録) , 2006 .

[25]  Panagiotis Kotronis,et al.  Full‐scale dynamic response of an RC building under weak seismic motions using earthquake recordings, ambient vibrations and modelling , 2007, 0710.1205.

[26]  Carlos Sousa Oliveira,et al.  Fundamental periods of vibration of RC buildings in Portugal from in-situ experimental and numerical techniques , 2010 .

[27]  Anil K. Chopra,et al.  Building Period Formulas for Estimating Seismic Displacements , 2000 .

[28]  Cécile Cornou,et al.  On the Limitation of the H/V Spectral Ratio Using Seismic Noise as an Exploration Tool: Application to the Grenoble Valley (France), a Small Apex Ratio Basin , 2007 .

[29]  Li-Ling Hong,et al.  Empirical formula for fundamental vibration periods of reinforced concrete buildings in Taiwan , 2000 .

[30]  Ali Kocak,et al.  Estimation of the Fundamental Vibration Period of Existing RC Buildings in Turkey Utilizing Ambient Vibration Records , 2008 .