A procedure for addressing the soil-abutment interaction problem in the safety assessment of bridges

The paper proposes a methodology for assessing the seismic soil-foundation-abutment response in the spirit of the sub-structure approach. The methodology is suitable for conventional bridge abutments characterized by massive structural components and accommodates for various structural and soil conf...

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Bibliographic Details
Published in:Soil dynamics and earthquake engineering (1984) 2025-01, Vol.188, p.109042, Article 109042
Main Authors: Carbonari, S., Dezi, F., Martini, R., Brunetti, A., Leoni, G.
Format: Article
Language:English
Subjects:
Bridge abutments
Bridge-abutment interaction
Seismic analysis
Soil-abutment interaction
Soil-structure interaction
Sub-structure approach
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Summary:The paper proposes a methodology for assessing the seismic soil-foundation-abutment response in the spirit of the sub-structure approach. The methodology is suitable for conventional bridge abutments characterized by massive structural components and accommodates for various structural and soil configurations, from both stratigraphic and topographic perspectives. The abutment is assumed to be rigid, which is a generally acceptable hypothesis given the typical geometry of conventional bridge abutments with walls, orthogonal wingwalls, and a concrete deep or strip foundation. The methodology aligns with codes, which foresees a linear behaviour for the abutments and suggest a low behaviour factor to account for dissipative capabilities due to the backfills and the radiation phenomena in the soil. The soil is assumed to perform elastically, but the overall soil nonlinearity induced by seismic wave propagation can be incorporated into the method using a linear equivalent representation of soil properties. The methodology is applied to a real case study in order to demonstrate its effectiveness in addressing the soil-structure interaction problem and to provide practical suggestions for the method implementation, including possible simplifications. •Methodology for seismic response of conventional bridges with massive abutments.•Advanced modelling for bridges with complex abutments and multi-level foundations.•Soil-abutment interaction method for various foundations and soil conditions.•A case study provides insights and recommendations for the methodology implementation.•Importance of soil-abutment interaction effect in seismic risk assessment of bridges.
ISSN:0267-7261
DOI:10.1016/j.soildyn.2024.109042