TY - JOUR
T1 - Seismic fragility curves for greek bridges
T2 - Methodology and case studies
AU - Moschonas, Ioannis F.
AU - Kappos, Andreas J.
AU - Panetsos, Panagiotis
AU - Papadopoulos, Vissarion
AU - Makarios, Triantafyllos
AU - Thanopoulos, Pavlos
N1 - Funding Information:
Acknowledgements As mentioned in the Introduction, a number of research teams from both the academic and research community, and from engineering design offices, have participated in the ASProGe Project, funded by the General Secretariat of Research and Technology of Greece. In addition to the authors of this paper, significant contributions to the research reported herein were made by Ms. Th. Paraskeva and Dr. A. Sextos (University of Thessaloniki), Prof. M. Papadrakakis and Mr. C. Papanikolopoulos (NTU, Athens), Dr. C. Karakostas and Dr. V. Lekidis (ITSAK, Thessaloniki), Dr. D. Konstantinidis (Egnatia Odos SA), and Dr. K. Stathopoulos, Dr. S. Vlachos, and Dr. S. Stathopoulos (DOMI SA).
PY - 2009/5
Y1 - 2009/5
N2 - This study focusses on the estimation of seismic fragility curves for all common bridge types found in modern greek motorways. At first a classification scheme is developed in order to classify the existing bridges into a sufficient number of classes. A total of 11 representative bridge classes resulted, based on the type of piers, deck, and pier-to-deck connection. Then an analytical methodology for deriving fragility curves is proposed and applied to the representative bridge models. This procedure is based on pushover analysis of the entire bridge and definition of damage states in terms of parameters of the bridge pushover curves. The procedure differentiates the way of defining damage according to the seismic energy dissipation mechanism in each bridge, i.e. bridges with yielding piers of the column type and bridges with bearings (with or without seismic links) and non-yielding piers of the wall type. The activation of the abutment-backfill system due to closure of the gap between the deck and the abutments is also taken into account. The derived fragility curves are subjected to a first calibration against empirical curves based on damage data from the US and Japan.
AB - This study focusses on the estimation of seismic fragility curves for all common bridge types found in modern greek motorways. At first a classification scheme is developed in order to classify the existing bridges into a sufficient number of classes. A total of 11 representative bridge classes resulted, based on the type of piers, deck, and pier-to-deck connection. Then an analytical methodology for deriving fragility curves is proposed and applied to the representative bridge models. This procedure is based on pushover analysis of the entire bridge and definition of damage states in terms of parameters of the bridge pushover curves. The procedure differentiates the way of defining damage according to the seismic energy dissipation mechanism in each bridge, i.e. bridges with yielding piers of the column type and bridges with bearings (with or without seismic links) and non-yielding piers of the wall type. The activation of the abutment-backfill system due to closure of the gap between the deck and the abutments is also taken into account. The derived fragility curves are subjected to a first calibration against empirical curves based on damage data from the US and Japan.
KW - Bridge classification
KW - Bridges
KW - Damage states
KW - Fragility curves
KW - Pushover analysis
KW - Vulnerability assessment
UR - http://www.scopus.com/inward/record.url?scp=65049088767&partnerID=8YFLogxK
U2 - 10.1007/s10518-008-9077-2
DO - 10.1007/s10518-008-9077-2
M3 - Article
AN - SCOPUS:65049088767
SN - 1570-761X
VL - 7
SP - 439
EP - 468
JO - Bulletin of Earthquake Engineering
JF - Bulletin of Earthquake Engineering
IS - 2
ER -