Earthquake response of a base-isolated bridge subjected to strong near-fault ground motion

Magni Hreinn Jónsson; Bjarni Bessason; Einar Haflidason

doi:10.1016/j.soildyn.2010.01.001

Earthquake response of a base-isolated bridge subjected to strong near-fault ground motion

Magni Hreinn Jónsson
, Bjarni Bessason
, Einar Haflidason

Faculty of Civil and Environmental Engineering

University of Iceland

Research output: Contribution to journal › Article › peer-review

Abstract

The South Iceland Lowland is an active seismic zone. In May 2008 a magnitude 6.3 (M_w) earthquake struck the area. The 370-m-long base-isolated Oseyrar Bridge situated close to the epicentre was hit by strong ground motion. Concrete stoppers at the top of all piers were badly smashed and all four wing walls of the abutments were severely damaged. The study showed that it is possible with numerical models to back-calculate the observed damage based on recorded ground motion in the area. The recorded loads were larger than prescribed by Eurocode 8 for the site even though the magnitude and location of the earthquake was as expected. The main reason was a near-fault pulse which is not covered in the code. The pulse dominated the bridge response and is therefore important to consider. Finally, an improved design is presented that could have prevented the damage.

Original language	English
Pages (from-to)	447-455
Number of pages	9
Journal	Soil Dynamics and Earthquake Engineering
Volume	30
Issue number	6
DOIs	https://doi.org/10.1016/j.soildyn.2010.01.001
Publication status	Published - Jun 2010

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10.1016/j.soildyn.2010.01.001

Cite this

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title = "Earthquake response of a base-isolated bridge subjected to strong near-fault ground motion",

abstract = "The South Iceland Lowland is an active seismic zone. In May 2008 a magnitude 6.3 (Mw) earthquake struck the area. The 370-m-long base-isolated Oseyrar Bridge situated close to the epicentre was hit by strong ground motion. Concrete stoppers at the top of all piers were badly smashed and all four wing walls of the abutments were severely damaged. The study showed that it is possible with numerical models to back-calculate the observed damage based on recorded ground motion in the area. The recorded loads were larger than prescribed by Eurocode 8 for the site even though the magnitude and location of the earthquake was as expected. The main reason was a near-fault pulse which is not covered in the code. The pulse dominated the bridge response and is therefore important to consider. Finally, an improved design is presented that could have prevented the damage.",

author = "J{\'o}nsson, \{Magni Hreinn\} and Bjarni Bessason and Einar Haflidason",

note = "Funding Information: This study was supported financially by the Icelandic Public Roads Administration.",

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TY - JOUR

T1 - Earthquake response of a base-isolated bridge subjected to strong near-fault ground motion

AU - Jónsson, Magni Hreinn

AU - Bessason, Bjarni

AU - Haflidason, Einar

N1 - Funding Information: This study was supported financially by the Icelandic Public Roads Administration.

PY - 2010/6

Y1 - 2010/6

N2 - The South Iceland Lowland is an active seismic zone. In May 2008 a magnitude 6.3 (Mw) earthquake struck the area. The 370-m-long base-isolated Oseyrar Bridge situated close to the epicentre was hit by strong ground motion. Concrete stoppers at the top of all piers were badly smashed and all four wing walls of the abutments were severely damaged. The study showed that it is possible with numerical models to back-calculate the observed damage based on recorded ground motion in the area. The recorded loads were larger than prescribed by Eurocode 8 for the site even though the magnitude and location of the earthquake was as expected. The main reason was a near-fault pulse which is not covered in the code. The pulse dominated the bridge response and is therefore important to consider. Finally, an improved design is presented that could have prevented the damage.

AB - The South Iceland Lowland is an active seismic zone. In May 2008 a magnitude 6.3 (Mw) earthquake struck the area. The 370-m-long base-isolated Oseyrar Bridge situated close to the epicentre was hit by strong ground motion. Concrete stoppers at the top of all piers were badly smashed and all four wing walls of the abutments were severely damaged. The study showed that it is possible with numerical models to back-calculate the observed damage based on recorded ground motion in the area. The recorded loads were larger than prescribed by Eurocode 8 for the site even though the magnitude and location of the earthquake was as expected. The main reason was a near-fault pulse which is not covered in the code. The pulse dominated the bridge response and is therefore important to consider. Finally, an improved design is presented that could have prevented the damage.

UR - https://www.scopus.com/pages/publications/77249095302

U2 - 10.1016/j.soildyn.2010.01.001

DO - 10.1016/j.soildyn.2010.01.001

M3 - Article

SN - 0267-7261

VL - 30

SP - 447

EP - 455

JO - Soil Dynamics and Earthquake Engineering

JF - Soil Dynamics and Earthquake Engineering

IS - 6

ER -

Earthquake response of a base-isolated bridge subjected to strong near-fault ground motion

Abstract

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