钢骨混凝土异形柱-钢梁节点抗震性能试验研究

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振动与冲击 ›› 2016, Vol. 35 ›› Issue (4) : 224-229.

论文

曾磊1，吴园园1，张地2，崔振坤1，龚倩倩1

作者信息 +

Experimental study on seismic behavior of frame joints between steel reinforced concrete special column and steel beam

ZENG Lei1, WU Yuanyuan1, ZHANG Di2, CUI Zhenkun1, GONG Qianqian1

Author information +

文章历史 +

摘要

为了研究钢骨混凝土异形柱-钢梁节点的抗震性能，进行了4个T形钢骨混凝土柱-钢梁节点和4个L形钢骨混凝土柱-钢梁节点的拟静力试验。试验考虑了混凝土强度等级、核心区配箍率和轴压比等参数的影响，对骨架曲线、承载力、核心区剪切变形、延性和耗能能力等抗震性能指标进行了分析。结果表明，在低周往复荷载作用下，钢骨混凝土异形柱-钢梁框架节点滞回曲线饱满，表现出良好的延性性能和耗能能力，典型破坏形态为节点核心区剪切斜压破坏和节点区焊缝失效破坏；高轴压力下节点具有较高的承载能力但延性性能降低；混凝土强度越高，节点承载能力越大，但延性性能越差；增大核心区配箍率对试件的延性和承载力有明显的提高，并能改善试件屈服后的耗能能力。

Abstract

To study failure modes and seismic behavior of frame joints between steel reinforced concrete special column and steel beam, 4 joints with T-shaped section and 4 joints with L-shaped section were tested under reversed cyclic loading. The parameters of concrete strength, axial compression ratio, core area stirrup ratio were taken into account. The deformation characteristics and the failure mode were investigated, hysteretic characteristics, skeleton curves, bearing capacity, shear deformation of core zone, ductility and energy dissipation ability were analyzed. The result indicates that the failure mode contained shear diagonal compression failure and core zone welding crack failure, the failure mode was determined by axial compression ratio; the specimen possesses plump hysteresis loop, which shows good seismic performance under reversed cyclic loading. With the increase of axial column load, the joints capacity increased, and the displacement ductility decreased as axial load ratio increased. The ultimate strength, ductility and energy dissipation capacity can be enhanced by increasing the stirrup ratio of core area.

导出引用

曾磊1，吴园园1，张地2，崔振坤1，龚倩倩1. 钢骨混凝土异形柱-钢梁节点抗震性能试验研究[J]. 振动与冲击, 2016, 35(4): 224-229

ZENG Lei1, WU Yuanyuan1, ZHANG Di2, CUI Zhenkun1, GONG Qianqian1. Experimental study on seismic behavior of frame joints between steel reinforced concrete special column and steel beam[J]. Journal of Vibration and Shock, 2016, 35(4): 224-229

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