内置钢板-高延性混凝土组合连梁抗震性能试验研究

EXPERIMENTAL STUDY ON SEISMIC BEHAVIOR OF STEEL PLATE-HIGH DUCTILE CONCRETE COMPOSITE COUPLING BEAM

  • 摘要: 为提高钢板与混凝土的协同变形能力,提出采用高延性混凝土(HDC)代替普通混凝土,设计了2个内置钢板-高延性混凝土(HDC)组合连梁与2个内置钢板-混凝土组合连梁对比试件。通过拟静力试验,研究试件的破坏过程、破坏形态、滞回特性、耗能能力及刚度退化等。结果表明:跨高比为1.5的试件均发生剪切破坏,跨高比为2.5的试件均发生剪切黏结破坏;与混凝土组合连梁相比,HDC组合连梁的延性和耐损伤能力均得到明显提高;试件发生剪切破坏时,HDC组合连梁较混凝土组合连梁的极限位移角和累积耗能分别提高了44.4%和83.5%;试件发生剪切黏结破坏时,HDC组合连梁的耗能能力仍有较大幅度提高。根据4个小跨高比组合连梁试验结果,计算得到其设计剪压比为0.48~0.57,明显高于小跨高比连梁的剪压比限值。基于试验结果和受剪机制分析,提出了小跨高比组合连梁的受剪承载力计算公式,其计算值与试验值吻合较好。

     

    Abstract: In order to improve the cooperative deformation capability of the concrete and the steel plate, the high ductile concrete (HDC) was proposed to replace the concrete. Two steel plate–HDC composite coupling beams and two steel plate-concrete composite coupling beams were tested under reversed cyclic lateral loading. The specimens’ failure process, failure modes, hysteretic behavior, energy dissipation and stiffness degradation were studied. The results shows that the failure mode of specimens with span-to-depth ratio of 1.5 is the shear failure while the shear-bond failure occurs on the specimens with span-to-depth ratio of 2.5. Compared with steel plate-concrete composite coupling beams, the proposed steel plate–HDC composite coupling beams exhibit high ductility and damage resistant capability under reversed cyclic lateral loading. Ultimate rotational capacity and energy dissipation of steel plate–HDC composite coupling beams are 44.4% and 83.5% higher, respectively than those of steel plate–concrete composite coupling beams when the specimens failed in shear. Steel plate–HDC composite coupling beam with span-to-depth ratio of 2.5 exhibits significantly improved energy-dissipation capacity. According to the test results, the specimens’ design value of shear-compression ratio is 0.48~0.57, which is significantly higher than the limited shear-compression ratio of the coupling beams with small span-to-depth ratio. Based on the test results and analysis, a formula for the shear capacity of the coupling beam with small span-to-depth ratio is presented, and the calculation values are in good agreement with experimental results.

     

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