Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Seismic design of bridges with the participation of seat-type abutments
Highlights ► Seismic response of bridges with or without the seismic contribution of the abutment was studied. ► Three real bridges with seat type-abutments were parametrically analysed. ► Critical design parameters (deck’s displacements and piers’ bending moments) were investigated. ► Seismic demand of bridges was effectively reduced due to the mobilization of the abutment.
Abstract Abutments are not only earth-retaining systems as they also participate to the earthquake resisting system (ERS) of the bridge, under certain design considerations. Current research mainly focuses on the assessment of the performance of integral abutment bridges, while only a few studies dealt with the design of bridges with seat-type abutments accounting for their seismic contribution. Along these lines, a comparative study on seat-type abutment bridges was performed. The scope of the study was to identify possible differences in their seismic response affecting significant design parameters that are the displacements of the deck and the bending moments of the piers. The study employed three real bridges of variable total lengths, openings at the expansion joints, backfill models and moderate to strong earthquake excitations. Non-linear dynamic time history analysis was performed. The study showed that the strong participation of the abutment and the backfill soil can reduce effectively the seismic demand of bridges. However, attention should be given in bridges with tall piers, whose seismic forces can be increased under certain design conditions.
Seismic design of bridges with the participation of seat-type abutments
Highlights ► Seismic response of bridges with or without the seismic contribution of the abutment was studied. ► Three real bridges with seat type-abutments were parametrically analysed. ► Critical design parameters (deck’s displacements and piers’ bending moments) were investigated. ► Seismic demand of bridges was effectively reduced due to the mobilization of the abutment.
Abstract Abutments are not only earth-retaining systems as they also participate to the earthquake resisting system (ERS) of the bridge, under certain design considerations. Current research mainly focuses on the assessment of the performance of integral abutment bridges, while only a few studies dealt with the design of bridges with seat-type abutments accounting for their seismic contribution. Along these lines, a comparative study on seat-type abutment bridges was performed. The scope of the study was to identify possible differences in their seismic response affecting significant design parameters that are the displacements of the deck and the bending moments of the piers. The study employed three real bridges of variable total lengths, openings at the expansion joints, backfill models and moderate to strong earthquake excitations. Non-linear dynamic time history analysis was performed. The study showed that the strong participation of the abutment and the backfill soil can reduce effectively the seismic demand of bridges. However, attention should be given in bridges with tall piers, whose seismic forces can be increased under certain design conditions.
Seismic design of bridges with the participation of seat-type abutments
Mitoulis, Stergios A. (Autor:in)
Engineering Structures ; 44 ; 222-233
23.05.2012
12 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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