Seismic performance of modular columns made of concrete filled FRP tubes

•A modular column, which can be installed without post-tensioning, is proposed.•The segments of the modular column are made of concrete filled FRP tubes (CFFT).•Quasi-static cyclic loading tests on nine scale-down columns were carried out.•The effect of the joint between the segments on seismic perf...

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Bibliographic Details
Published in:Engineering structures 2013-12, Vol.57, p.37-50
Main Authors: Youm, Kwang-Soo, Cho, Jae-young, Lee, Young-Ho, Kim, Jung J.
Format: Article
Language:English
Subjects:
Applied sciences
Building structure
Buildings. Public works
CFFT
Construction (buildings and works)
Ductility
Exact sciences and technology
Fiber reinforced plastics
Geotechnics
Glass transition temperature
Modular
Modular column
Quasi-static
Reinforced concrete
Reinforcing steels
Segments
Seismic
Seismic response
Steel-concrete composite structure
Structure-soil interaction
Tubes
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Summary:•A modular column, which can be installed without post-tensioning, is proposed.•The segments of the modular column are made of concrete filled FRP tubes (CFFT).•Quasi-static cyclic loading tests on nine scale-down columns were carried out.•The effect of the joint between the segments on seismic performance was negligible.•The seismic performance of modular and cast-in-place columns was comparable. In this study the effectiveness of a modular column without post-tensioning is evaluated for earthquake resistance. The segments of the modular columns are made of concrete-filled fiber reinforced polymer (FRP) tubes (CFFT) for providing additional flexural hinge confinement by FRP tube. The CFFT segments are manufactured by match cast method, having insert holes for longitudinal steel bars embedded in reinforced concrete (RC) foundation to penetrate. No tensioning is applied for the connection of the segments by considering the difficulty to install anchorage devices. The segments are bonded to each other by epoxy. Quasi-static cyclic loading tests of scale-down circular columns were carried out. The experimental results of the modular CFFT columns were compared with those of CFFT cast-in-place columns and conventional RC columns. The results showed that the seismic performance of the modular CFFT columns is superior to that of their RC counterparts and comparable to that of their CFFT cast-in-place counterparts. The proposed modular system can be easily installed and will provide rapid construction.
ISSN:0141-0296
1873-7323
DOI:10.1016/j.engstruct.2013.09.001