Assessment on seismic performance of circular concrete-filled thin-walled steel tube columns
Autor: | Xuanding Wang, Pan Gao, Jiepeng Liu, Qiaorong Zhao, Huimin Xu, Wei Wei, Xian-Tie Wang |
---|---|
Rok vydání: | 2022 |
Předmět: | |
Zdroj: | Advances in Structural Engineering. 26:399-412 |
ISSN: | 2048-4011 1369-4332 |
Popis: | Concrete-filled steel tubular (CFST) with circular section is a very efficient composite component bearing vertical loads, which takes advantage of the synergy of steel tube and concrete to fully develop the strengths of both materials. To promote the application of circular CFST columns in multi-story buildings or medium-span bridge piers with improved economic efficiency, circular CFSTs using thin-walled steel tubes were studied in this paper. 8 specimens were designed and tested to assess their seismic performance under constant axial compression and cyclic lateral loads. The key test parameters include axial compression ratio, diameter-to-thickness ratio of steel tube, as well as stiffening scheme. The effectiveness of two steel plate stiffeners (longitudinal stiffener, binding stiffener) at the potential plastic hinges of thin-walled circular CFST columns was verified and discussed. Although all specimens failed in a manner characterized by significant local buckling of steel tubes, they still performed a relatively ductile behavior with the ductility coefficients generally exceeding 4.0, and the ultimate drift ratios exceeding 1/40. The steel plate stiffeners did not achieve the expected enhancement in strength and ductility, due to the premature fracture in the steel tube which may be caused by the damage in the welding heat-affected zone. Based on the test results, a numerical model and a simplified hysteretic model were established to predict the seismic responses of the thin-walled circular CFST columns. |
Databáze: | OpenAIRE |
Externí odkaz: |