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Earthquakes and Structures Volume 18, Number 5, May 2020 , pages 581-598 DOI: https://doi.org/10.12989/eas.2020.18.5.581 |
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Seismic analysis of RC tubular columns in air-cooled supporting structure of TPP |
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Bo Wang, Ke Yang, Huijuan Dai, Guoliang Bai and Chaogang Qin
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| Abstract | ||
| This paper aims to investigate the seismic behavior and influence parameters of the large-scaled thin-walled reinforced concrete (RC) tubular columns in air-cooled supporting structures of thermal power plants (TPPs). Cyclic loading tests and finite element analysis were performed on 1/8-scaled specimens considering the influence of wall diameter ratio, axial compression ratio, longitudinal reinforcement ratio, stirrup reinforcement ratio and adding steel diagonal braces (SDBs). The research results showed that the cracks mainly occurred on the lower half part of RC tubular columns during the cyclic loading test; the specimen with the minimum wall diameter ratio presented the earlier cracking and had the most cracks; the failure mode of RC tubular columns was large bias compression failure; increasing the axial compression ratio could increase the lateral bearing capacity and energy dissipation capacity, but also weaken the ductility and aggravate the lateral stiffness deterioration; increasing the longitudinal reinforcement ratio could efficiently enhance the seismic behavior; increasing the stirrup reinforcement ratio was favorable to the ductility; RC tubular columns with SDBs had a much higher bearing capacity and lateral stiffness than those without SDBs, and with the decrease of the angle between columns and SDBs, both bearing capacity and lateral stiffness increased significantly. | ||
| Key Words | ||
| thermal power plant (TPP); RC tubular column; seismic behavior; cyclic loading test; parametric analysis | ||
| Address | ||
| Bo Wang, Ke Yang, Chaogang Qin: School of Civil Engineering, Chang | ||