Non-linear dynamic analysis of reinforced concrete bridge columns under vehicle impact loadings

Woo Seok Kim; Yoseok Jeong; Kyeongjin Kim; Jaeha Lee

doi:10.21595/jve.2016.16640

Non-linear dynamic analysis of reinforced concrete bridge columns under vehicle impact loadings

Woo Seok Kim, Yoseok Jeong, Kyeongjin Kim, Jaeha Lee

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

13 Scopus citations

Abstract

A 3D nonlinear impact analysis was performed for reinforced concrete bridge columns under truck impact loadings. Three different boundary conditions were considered to investigate the effect of superstructures on the integral column during impact. Fixed bottom conditions and restraints in the loading direction at the top of the column (Model I) showed the largest damaged area. The dominant failure mode of the column was shear. However, Model II, which is equivalent to Model I with the top released, showed less damage, and the dominant failure modes were flexure rather than shear. In Model III, in which the effect of featured the superstructure was considered, the shear and flexural damage to the column were reduced due to the movement of the superstructures.

Original language	English
Pages (from-to)	4617-4626
Number of pages	10
Journal	Journal of Vibroengineering
Volume	18
Issue number	7
DOIs	https://doi.org/10.21595/jve.2016.16640
State	Published - 1 Jan 2016

Keywords

Bridge column
Impact
Non-linear analysis
Superstructure
Vehicle collision

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title = "Non-linear dynamic analysis of reinforced concrete bridge columns under vehicle impact loadings",

abstract = "A 3D nonlinear impact analysis was performed for reinforced concrete bridge columns under truck impact loadings. Three different boundary conditions were considered to investigate the effect of superstructures on the integral column during impact. Fixed bottom conditions and restraints in the loading direction at the top of the column (Model I) showed the largest damaged area. The dominant failure mode of the column was shear. However, Model II, which is equivalent to Model I with the top released, showed less damage, and the dominant failure modes were flexure rather than shear. In Model III, in which the effect of featured the superstructure was considered, the shear and flexural damage to the column were reduced due to the movement of the superstructures.",

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AU - Kim, Woo Seok

AU - Jeong, Yoseok

AU - Kim, Kyeongjin

AU - Lee, Jaeha

N1 - Publisher Copyright: © JVE INTERNATIONAL LTD.

PY - 2016/1/1

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N2 - A 3D nonlinear impact analysis was performed for reinforced concrete bridge columns under truck impact loadings. Three different boundary conditions were considered to investigate the effect of superstructures on the integral column during impact. Fixed bottom conditions and restraints in the loading direction at the top of the column (Model I) showed the largest damaged area. The dominant failure mode of the column was shear. However, Model II, which is equivalent to Model I with the top released, showed less damage, and the dominant failure modes were flexure rather than shear. In Model III, in which the effect of featured the superstructure was considered, the shear and flexural damage to the column were reduced due to the movement of the superstructures.

AB - A 3D nonlinear impact analysis was performed for reinforced concrete bridge columns under truck impact loadings. Three different boundary conditions were considered to investigate the effect of superstructures on the integral column during impact. Fixed bottom conditions and restraints in the loading direction at the top of the column (Model I) showed the largest damaged area. The dominant failure mode of the column was shear. However, Model II, which is equivalent to Model I with the top released, showed less damage, and the dominant failure modes were flexure rather than shear. In Model III, in which the effect of featured the superstructure was considered, the shear and flexural damage to the column were reduced due to the movement of the superstructures.

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KW - Non-linear analysis

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Non-linear dynamic analysis of reinforced concrete bridge columns under vehicle impact loadings

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