内置圆钢管斜柱扩展基础上拔水平力组合荷载试验

TESTS ON INCLINED COLUMN SPREAD FOUNDATION WITH INNER CIRCULAR STEEL TUBE SUBJECTED TO UPLIF AND HORIZONTAL CONBINATION LOADS

  • 摘要: 通过开展输电线路新型内置圆钢管斜柱扩展基础上拔和水平力组合荷载作用下的4个现场试验,分析了主柱配筋和锚固件设置方式对其承载性能影响规律,研究了该类型基础的破坏机理。结果表明:上拔水平力组合荷载作用下基顶荷载位移曲线具有明显的弹性、屈服阶段和破坏阶段;主柱纵筋可提高柱身强度,当柱身强度满足承载要求时,地基土体发生剪切破坏使得内置圆钢管斜柱扩展基础丧失承载能力,反之,则因钢管底锚上方剪压区混凝土达到极限状态引起基础破坏;锚固件可提高钢管、纵筋及基础扩大端的协同工作性,充分发挥各部分的力学性能,使得基础的受力状态更加合理。

     

    Abstract: Based on four in-situ tests on inclined column foundations with inner circular steel tube subjected to uplift and horizontal combination loads, the bearing capacity and failure mechanism of foundations with different arrangements of anchorage and longitudinal reinforcing steel bars are analysised. The results show that the load-displacement curves have obvious elastic, yielding and destructive stages. Under uplift and horizontal combination loads, a higher ratio of reinforcement of the column could increase the bearing capacity of the foundation column. The inclined column foundations losed their bearing capacity when the concret above the shear-compression zone of the bottom anchorage reached the strength limit or when the subgrade soil failured. The anchorage improved the coordinated performances of circular steel tube, and longitudinal bars and foundation slab. Therefore, the anchorage makes full utilization of mechanical property of all structural components of the foundation, which makes the mechanical condition of foundation much more proper.

     

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