Title:
Behavior and Design of Slender Rectangular Concrete Columns Longitudinally Reinforced with Fiber-Reinforced Polymer Bars
Author(s):
Weichen Xue, Fei Peng, and Zhiqing Fang
Publication:
Structural Journal
Volume:
115
Issue:
2
Appears on pages(s):
311-322
Keywords:
design approach; effective flexural stiffness; fiber-reinforced polymer (FRP) bars; finite element (FE) analysis; rectangular column; reinforced concrete
DOI:
10.14359/51701131
Date:
3/1/2018
Abstract:
Fifteen slender rectangular reinforced concrete (RC) columns with longitudinal glass fiber-reinforced polymer (FRP) bars were tested under compression in this paper. Results showed that all columns with varying length-to-depth ratios and eccentricity ratios failed by concrete crushing, and no rupture of FRP bars was experienced. Moreover, validated nonlinear finite element model was used to perform a detailed parametric study of 27,000 FRP-RC columns using Opensees. Based on parametric analysis results in conjunction with the moment magnifier method, a refined design equation of the effective flexural stiffness EI was then statistically derived to determine the second-order bending moments. On this basis, a design approach was proposed for slender FRP-RC rectangular columns, in which the contribution of FRP bars in compression to the strength of sections was taken into account. The proposed approach is more consistent and accurate than existing design methods by comparing their predictions with available experimental results of 46 columns.