Numerical study on the longitudinal seismic performance of novel prefabricated Concrete-Filled Steel Tubular (CFST) bridge piers

This study investigates the longitudinal (namely along the bridge length direction) seismic performance of a novel prefabricated concrete-filled steel tube (CFST) bridge pier. The novel CFST pier, constructed using prefabricated components and assembly joints, ensures a simple and efficient construc...

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Published inAdvances in bridge engineering Vol. 6; no. 1; pp. 15 - 25
Main Authors Huang, Chen, Gu, Chao, Wang, Xuanding, Zhang, Wenjun, Zhou, Xuhong
Format Journal Article
LanguageEnglish
Published Singapore Springer Nature Singapore 01.12.2025
Springer Nature B.V
SpringerOpen
Subjects
Bridge piers
Bridges
Civil Engineering
Concrete
Concrete-filled steel tubular (CFST)
Continuous bridges
Curvature
Deformation
Ductility
Earthquakes
Energy dissipation
Engineering
Fragility
Fragility analysis
Girder bridges
Highway construction
Investigations
Load
Numerical analysis
Numerical simulation
Onsite
Original Innovation
Piers
Prefabricated bridge pier
Prefabrication
Prestressed concrete
Reinforcing steels
Seismic behavior
Seismic engineering
Seismic response
Steel columns
Steel tubes
Numerical simulation
Seismic behavior
Prefabricated bridge pier
Fragility analysis
Concrete-filled steel tubular (CFST)
Online AccessGet full text
ISSN2662-5407
2662-5407
DOI10.1186/s43251-025-00160-w

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Abstract This study investigates the longitudinal (namely along the bridge length direction) seismic performance of a novel prefabricated concrete-filled steel tube (CFST) bridge pier. The novel CFST pier, constructed using prefabricated components and assembly joints, ensures a simple and efficient construction method along with significant cost benefits. Previous research indicates that CFST piers exhibit superior lateral seismic performance compared to conventional RC piers, with lower sensitivity to seismic fragility. However, the longitudinal seismic response of CFST piers under varying pier heights and connection types remains to be clarified. This study designs 14 continuous girder bridge cases, including six conventional RC pier cases and eight corresponding CFST pier cases. Through dynamic and seismic fragility analyses, the longitudinal seismic responses of the novel CFST piers are investigated. The results demonstrate that the longitudinal maximum displacement and curvature ratio of CFST piers are comparable to, or even lower than, those of conventional RC piers, especially when integrated with a rigid beam-pier connection system. Additionally, CFST piers demonstrate lower seismic fragility in the longitudinal direction. An assessment method integrating both curvature ratio and maximum drift is recommended for these CFST piers.
AbstractList This study investigates the longitudinal (namely along the bridge length direction) seismic performance of a novel prefabricated concrete-filled steel tube (CFST) bridge pier. The novel CFST pier, constructed using prefabricated components and assembly joints, ensures a simple and efficient construction method along with significant cost benefits. Previous research indicates that CFST piers exhibit superior lateral seismic performance compared to conventional RC piers, with lower sensitivity to seismic fragility. However, the longitudinal seismic response of CFST piers under varying pier heights and connection types remains to be clarified. This study designs 14 continuous girder bridge cases, including six conventional RC pier cases and eight corresponding CFST pier cases. Through dynamic and seismic fragility analyses, the longitudinal seismic responses of the novel CFST piers are investigated. The results demonstrate that the longitudinal maximum displacement and curvature ratio of CFST piers are comparable to, or even lower than, those of conventional RC piers, especially when integrated with a rigid beam-pier connection system. Additionally, CFST piers demonstrate lower seismic fragility in the longitudinal direction. An assessment method integrating both curvature ratio and maximum drift is recommended for these CFST piers.
Abstract This study investigates the longitudinal (namely along the bridge length direction) seismic performance of a novel prefabricated concrete-filled steel tube (CFST) bridge pier. The novel CFST pier, constructed using prefabricated components and assembly joints, ensures a simple and efficient construction method along with significant cost benefits. Previous research indicates that CFST piers exhibit superior lateral seismic performance compared to conventional RC piers, with lower sensitivity to seismic fragility. However, the longitudinal seismic response of CFST piers under varying pier heights and connection types remains to be clarified. This study designs 14 continuous girder bridge cases, including six conventional RC pier cases and eight corresponding CFST pier cases. Through dynamic and seismic fragility analyses, the longitudinal seismic responses of the novel CFST piers are investigated. The results demonstrate that the longitudinal maximum displacement and curvature ratio of CFST piers are comparable to, or even lower than, those of conventional RC piers, especially when integrated with a rigid beam-pier connection system. Additionally, CFST piers demonstrate lower seismic fragility in the longitudinal direction. An assessment method integrating both curvature ratio and maximum drift is recommended for these CFST piers.
ArticleNumber 15
Author Wang, Xuanding
Gu, Chao
Huang, Chen
Zhang, Wenjun
Zhou, Xuhong
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Snippet This study investigates the longitudinal (namely along the bridge length direction) seismic performance of a novel prefabricated concrete-filled steel tube...
Abstract This study investigates the longitudinal (namely along the bridge length direction) seismic performance of a novel prefabricated concrete-filled steel...
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SubjectTerms Bridge piers
Bridges
Civil Engineering
Concrete
Concrete-filled steel tubular (CFST)
Continuous bridges
Curvature
Deformation
Ductility
Earthquakes
Energy dissipation
Engineering
Fragility
Fragility analysis
Girder bridges
Highway construction
Investigations
Load
Numerical analysis
Numerical simulation
Onsite
Original Innovation
Piers
Prefabricated bridge pier
Prefabrication
Prestressed concrete
Reinforcing steels
Seismic behavior
Seismic engineering
Seismic response
Steel columns
Steel tubes
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Title Numerical study on the longitudinal seismic performance of novel prefabricated Concrete-Filled Steel Tubular (CFST) bridge piers
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