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Cyclic lateral response of FRP-confined circular concrete-filled steel tubular columns
Abstract Concrete-filled steel tubular (CFT) columns are widely used as columns in many structural systems and a common failure mode of such tubular columns is inelastic outward local buckling near a column end. The use of fibre-reinforced polymer (FRP) jackets/wraps for the suppression of such local buckling has recently been proposed and has been proven to possess excellent potential in both retrofit/strengthening and new construction. This paper presents the results of an experimental study into the behaviour of large-scale FRP-confined CFT (CCFT) columns under combined axial compression and lateral loading. The test parameters included the stiffness of the FRP jacket and the loading scenario. The test results showed that the FRP jacket can effectively delay or even prevent outward local buckling at the end of a cantilevered CFT column, leading to significantly improved structural performance under combined constant axial compression and cyclic lateral loading. Compared to monotonic lateral loading, cyclic lateral loading was found to introduce more severe localized deformation near the column end and may lead to earlier FRP rupture within that region.
Highlights Large-scale FRP-confined concrete-filled steel tubular columns were tested under cyclic lateral loading. FRP jackets can delay or prevent steel tube local buckling at the end of a cantilevered column. Cyclic lateral loading leads to more severe localized deformation than monotonic lateral loading.
Cyclic lateral response of FRP-confined circular concrete-filled steel tubular columns
Abstract Concrete-filled steel tubular (CFT) columns are widely used as columns in many structural systems and a common failure mode of such tubular columns is inelastic outward local buckling near a column end. The use of fibre-reinforced polymer (FRP) jackets/wraps for the suppression of such local buckling has recently been proposed and has been proven to possess excellent potential in both retrofit/strengthening and new construction. This paper presents the results of an experimental study into the behaviour of large-scale FRP-confined CFT (CCFT) columns under combined axial compression and lateral loading. The test parameters included the stiffness of the FRP jacket and the loading scenario. The test results showed that the FRP jacket can effectively delay or even prevent outward local buckling at the end of a cantilevered CFT column, leading to significantly improved structural performance under combined constant axial compression and cyclic lateral loading. Compared to monotonic lateral loading, cyclic lateral loading was found to introduce more severe localized deformation near the column end and may lead to earlier FRP rupture within that region.
Highlights Large-scale FRP-confined concrete-filled steel tubular columns were tested under cyclic lateral loading. FRP jackets can delay or prevent steel tube local buckling at the end of a cantilevered column. Cyclic lateral loading leads to more severe localized deformation than monotonic lateral loading.
Cyclic lateral response of FRP-confined circular concrete-filled steel tubular columns
Yu, T. (author) / Hu, Y.M. (author) / Teng, J.G. (author)
Journal of Constructional Steel Research ; 124 ; 12-22
2016-05-12
11 pages
Article (Journal)
Electronic Resource
English
Cyclic lateral response of FRP-confined circular concrete-filled steel tubular columns
| British Library Online Contents | 2016
Cyclic lateral response of FRP-confined circular concrete-filled steel tubular columns
| Online Contents | 2016
FRP-confined circular concrete-filled steel tubular columns under cyclic axial compression
| Online Contents | 2014