Evaluation of Seismic Behavior of Bridges under Effect of Abutment Modeling

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Haseli Behzad

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Journal Paper

Paper Information

Journal: JOURNAL OF CIVIL ENGINEERING AND MATERIALS APPLICATION Year:2019 | Volume:3 | Issue:3 Page(s): 143-156

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Information Journal Paper

Title

Evaluation of Seismic Behavior of Bridges under Effect of Abutment Modeling

Author(s)

Haseli Behzad | Issue Writer Certificate

Keywords

abutment modelling

soil-abutment interaction

abutment stiffness

roller abutment

simplified abutment

Abstract

This Bridges are vital part of the transportation network Department of Civil Engineering. Their destruction caused by occurrence of a strong earthquake can cause irreparable damages to the regional economy. One of the effective factors on seismic response of a bridge is abutment and it's modelling. In most cases, analysis of seismic behavior and modelling of bridges is done using simplifying assumptions. This simplification may cause major changes in prediction of seismic behavior of bridges. Using simplified, roller and full models for abutment is very important in design and evaluation of seismic behavior of bridges. Backfill is a vital factor in modelling abutments. In this study, abutments were analyzed in three scenarios under records related to three stations of Imperial Valley earthquake (1979) and responses compare in two state with and without backfill. The results showed that minimum response (for deck, pier column and abutment) were related to the first modelling scenario (roller abutment) and maximum response were related to the fifth modelling scenario (simplified abutment as suggested by Shamsabadi for cohesive soil). Modelling of backfill was effective on displacement and rotation of pier column and displacement of deck and moment of abutment. For all records of earthquake, wall pier abutment (sixth scenario) was considerably consistent with modelling based on Caltrans guideline for sandy soil (second scenario). In the height ranging from 5 to 9 meters, the suggested modelling (wall pier abutment) can be used instead of Caltrans method. In this height range, the results (maximum abutment displacement and abutment pressure) vary from 11to 23%.

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APA: Copy

Haseli, Behzad. (2019). Evaluation of Seismic Behavior of Bridges under Effect of Abutment Modeling. JOURNAL OF CIVIL ENGINEERING AND MATERIALS APPLICATION, 3(3), 143-156. SID. https://sid.ir/paper/351266/en

Vancouver: Copy

Haseli Behzad. Evaluation of Seismic Behavior of Bridges under Effect of Abutment Modeling. JOURNAL OF CIVIL ENGINEERING AND MATERIALS APPLICATION[Internet]. 2019;3(3):143-156. Available from: https://sid.ir/paper/351266/en

IEEE: Copy

Behzad Haseli, “Evaluation of Seismic Behavior of Bridges under Effect of Abutment Modeling,” JOURNAL OF CIVIL ENGINEERING AND MATERIALS APPLICATION, vol. 3, no. 3, pp. 143–156, 2019, [Online]. Available: https://sid.ir/paper/351266/en

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