【摘要】 具有稳定二次刚度和良好震后可修复性的钢-连续纤维复合筋(SFCB)增强混凝土柱的抗震性能与普通RC柱有较大差别,本文对在水平往复荷载作用下,轴压比为0.12的4个SFCB增强混凝土柱及1个RC对比柱的抗震性能进行试验研究。SFCB增强混凝土柱主要变化参数为SFCB中的纤维种类(玄武岩纤维和碳纤维)和钢/纤维比例。研究结果表明:①SFCB增强混凝土柱相对普通RC柱具有稳定的二次刚度,在复合筋内芯钢筋屈服后,SFCB增强混凝土柱承载力仍可稳定提高;②SFCB增强混凝土柱由于复合筋的二次刚度,实现了在与普通RC柱相同柱顶变形能力的前提下,具有较小柱脚曲率需求的特点,从而实现较小的卸载残余位移,较高的震后可修复性能;③SFCB增强混凝土柱的性能特点与复合筋中外侧纤维有直接关系,钢-玄武岩纤维复合筋增强混凝土柱相对于钢-碳纤维复合筋柱具有更好的延性(二次刚度有效长度)和相同柱顶侧向位移水平下卸载时更小的残余位移。更多还原

【Abstract】 The seismic performance of concrete columns reinforced by Steel-FRP(Fiber Reinforced Polymer) Composite Bar(SFCB) is quite different from that of ordinary RC(Reinforced Concrete) columns.Horizontal cyclic loading tests were conducted on concrete columns reinforced by SFCB and ordinary steel bars,separately,with an axial compression ratio of 0.12.Fiber types(basalt and carbon fibers) and steel/fiber ratio of SFCB were the main variable parameters.Test results showed that: ①compared with ordinary RC column,concrete columns reinforced by SFCB had stable post-yield stiffness,and the load could increase significantly after the yielding of SFCB inner steel bar;②due to the post-yield stiffness of SFCB,SFCB reinforced concrete column had less column base curvature demand than ordinary RC column at the same column cap lateral deformation level,and therefore smaller unloading residual deformation could be achieved;③the outer FRP type of SFCB significantly influenced the performance of SFCB reinforced concrete columns,and steel-BFRP(basalt FRP) composite bar reinforced concrete columns had better ductility(longer effective length of post-yield stiffness) and smaller unloading residual deformation than steel-CFRP(carbon FRP) composite bar columns under the same unloading displacement.更多还原