Performance of CFRP-con ned pultruded GFRP-concrete composite columns subjected to cyclic and monotonic compressive loading

A new composite column composed of pultrusion, concrete, and Fiber-Reinforced Polymer (FRP) is presented in this paper. The con nement and composite action between the constituent materials result in the enhanced compressive strength and ductility of the proposed composite columns, compared to traditionally reinforced concrete columns. Compared to other materials, advantages of FRP products include light weight, high speci c strength, corrosion resistance, and low maintenance cost. This research showed that I-shaped pultruded Glass Fiber-Reinforced Polymer (GFRP) could satisfactorily improve the structural performance of concrete columns. The e ectiveness of discrete and continuous Carbon Fiber-Reinforced Polymer (CFRP) wrapping arrangements for pultrusion-concrete composite short columns subjected to axial compressive loading is assessed in this study. The experimental program is composed of one series of composite columns with discrete wrapping arrangements and one series of fully wrapped composite columns. A numerical model was developed to predict the behavior of the FRP-con ned composite columns subjected to axial compressive loading. The damage mechanisms of the columns wrapped by the composite layers are strongly dependent on the chosen materials. The results of nite element models are compared with the data obtained from the conducted experimental program, which showed good agreement between the results and the experimental data. © 2020 Sharif University of Technology. All rights reserved.