钢套管再生混凝土加固柱抗震性能及影响参数研究

INVESTIGATION ON SEISMIC BEHAVIOR AND INFLUENCING PARAMETERS OF STEEL-JACKET STRENGTHENED COLUMNS WITH RECYCLED AGGREGATE CONCRETE

  • 摘要: 通过1个未加固的钢筋混凝土柱和9个钢套管加固钢筋混凝土柱的低周反复加载试验,研究了钢套管加固柱的抗震性能。随后在ABAQUS中,利用经试验校验的纤维梁模型,进行钢套管再生混凝土柱的数值模拟,并对相关影响因素进行参数化分析。结果表明:经钢套管再生混凝土加固后,钢筋混凝土柱的抗震性能显著提升;在所研究的参数范围内,轴压比小于0.58时,加固柱抗侧承载力随轴压比的增大而提高,但轴压比大于0.58时,加固柱抗侧承载力随轴压比的增大显著下降,且损伤发展速度加快;钢套管厚度能提升加固柱的抗震性能,但提升幅度随厚度的增加而减缓;原柱轴压比对加固柱的力学性能和破坏模式有较大影响,且初始压弯组合应力显著降低高轴压比加固柱的压弯承载力;在钢套管的有效约束下,再生混凝土对构件整体承载力的影响不明显,但使得构件的抗震性能有所下降。

     

    Abstract: To investigate the aseismic behavior of steel-jacket strengthened columns with recycled aggregate concrete, low-cycle reversed loading tests were conducted on one normal reinforced concrete column and nine steel-jacket strengthened columns with recycled aggregate concrete. Then in ABAQUS, using the fiber beam model verified by experiments, the numerical simulation on steel-jacket strengthened columns was conducted, and the related influencing factors were analyzed by parametric analysis. The results show that the aseismic behavior of columns is significantly improved by taking this strengthen scheme. Based on the range of parameters adopted in this research, the lateral resistance capacity increases with the increase of axial compression ratio in a range less than 0.58, but it decreases obviously and the degree of damage develops faster with the increase of axial compression ratio in a range larger than 0.58. The aseismic performance can be improved by increasing the thickness of steel-jacket, but the effect gradually decreases with the increase of thickness. The axial compression ratio of the original column has a great influence on the mechanical properties and failure modes of the strengthened column, and the initial compressive-bending stress significantly reduces the flexural capacity of the strengthened columns which have high axial compression ratio. When the strengthened column is under the effective constraint of steel-jacket, the influence of recycled aggregate concrete on the overall bearing capacity of columns is not obvious, but it would lead to the decrease of aseismic performance.

     

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