Experimental studies and finite element analysis on seismic shear behavior of high-strength rebars shear walls with flanges
Fu Jianping1 Yao Jialin1 Cui Jiaren2 Chen Xiaolei1
1. Key Laboratory of New Technology Construction of Cities in Mountain Area of the Ministry of Education, Chongqing University, Chongqing 400045, China;
2. Guangzhou Design Institute, Guangzhou 510620, China
Abstract:Four shear walls with flanges of HRB600 grade rebars and one shear wall with flange of HRB400 grade rebars were designed and tested under reversed cyclic horizontal forces. The main aim is to study their performance differences and the influence of reinforcement ratio and axial compression ratio on seismic anti-shear performance. It is shown that the ultimate shear capacity of shear wall with HRB600 grade rebars is lower than that with HRB400 grade rebars. HRB600 grade rebars fail to yield when the ultimate shear capacity is reached. While the crack width of shear walls with HRB600 grade rebars is smaller and the deformation capacity is better than that with HRB400 grade rebars in later period. Moreover, the finite element analysis software VecTor2 is used to analyze the main factors which affect the shear capacity of low rise shear walls with high-strength rebars. In the end, the formula for design value of HRB600 grade rebars is obtained.
傅剑平 姚佳琳 崔嘉仁 陈晓磊 . 配置高强钢筋工字形截面剪力墙试件抗震抗剪性能试验与有限元分析[J]. 土木工程学报, 2018, 51(3): 44-51.
Fu Jianping Yao Jialin Cui Jiaren Chen Xiaolei . Experimental studies and finite element analysis on seismic shear behavior of high-strength rebars shear walls with flanges. 土木工程学报, 2018, 51(3): 44-51.
