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EFFECT OF REINFORCEMENT RATIO AND VERTICAL LOAD LEVEL ON LATERAL CAPACITY OF BRIDGE PILE FOUNDATIONS

Abstract

The bearing response of pile foundations for cross-sea bridge subjected to lateral loading is investigated through three dimensional finite element numerical analyses. In the analyses, non-linear behavior of concrete is simulated using smeared cracking model, and the strain-stress relationship of rebar is modeled through perfectly elasto-plastic model obeying Mises yield criterion. The finite element model is validated against published lateral static loading test in situ. The effect of reinforcement ratio of reinforced concrete and vertical load level is explored on the displacement of pile head and lateral capacity of pile. The results show that for the pile with low reinforcement ratio, the allowable lateral capacity is controlled by concrete cracking, however the allowable lateral capacity is controlled by the displacement of pile head with high reinforcement ratio. The vertical load applied on the pile head may reduce its displacement but increase simultaneously the maximum moment in the pile body. Therefore, the optimum vertical load level is 0.4~0.6 times of the vertical ultimate load of a single pile.

Keywords:

cross-sea bridge, pile foundations, lateral capacity, concrete damage, numerical analysis

Details

Issue
Vol. 25 No. S3(99) (2018)
Section
Latest Articles
Published
11-01-2019
DOI:
https://doi.org/10.2478/pomr-2018-0120
Licencja:
Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Open Access License

This journal provides immediate open access to its content under the Creative Commons BY 4.0 license. Authors who publish with this journal retain all copyrights and agree to the terms of the CC BY 4.0 license.

 

Authors

  • Fan Qinglai

    School of Civil Engineering Ludong University
  • Gao Yufeng

    College of Civil and Transportation Engineering Hohai University

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