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辛公锋, 周海祚, 张文亮, 郑刚, 杨新煜, 于晓旋, 徐仕谦. 桩帽对复合地基支承路堤稳定和渐进破坏影响分析[J]. 岩土工程学报, 2022, 44(S1): 63-67. DOI: 10.11779/CJGE2022S1012
引用本文: 辛公锋, 周海祚, 张文亮, 郑刚, 杨新煜, 于晓旋, 徐仕谦. 桩帽对复合地基支承路堤稳定和渐进破坏影响分析[J]. 岩土工程学报, 2022, 44(S1): 63-67. DOI: 10.11779/CJGE2022S1012
XIN Gong-feng, ZHOU Hai-zuo, ZHANG Wen-liang, ZHENG Gang, YANG Xin-yu, YU Xiao-xuan, XU Shi-qian. Influences of column cap on progressive failure and stability characteristics of column-supported embankments[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(S1): 63-67. DOI: 10.11779/CJGE2022S1012
Citation: XIN Gong-feng, ZHOU Hai-zuo, ZHANG Wen-liang, ZHENG Gang, YANG Xin-yu, YU Xiao-xuan, XU Shi-qian. Influences of column cap on progressive failure and stability characteristics of column-supported embankments[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(S1): 63-67. DOI: 10.11779/CJGE2022S1012

桩帽对复合地基支承路堤稳定和渐进破坏影响分析

Influences of column cap on progressive failure and stability characteristics of column-supported embankments

  • 摘要: 刚性桩复合地基设计桩帽可避免桩顶部应力集中,更好的发挥复合地基性能,在工程实践中得到了广泛应用,然而桩帽存在对刚性桩复合地基支承路堤稳定性和渐进破坏特性的影响分析相对缺乏。建立精确化模拟桩帽刚性桩破坏后性状的有限差分数值模型,分析了桩帽对路堤荷载下桩体受力和破坏模式的影响,对比了不同桩帽尺寸对路堤稳定性的影响。结果显示,桩帽存在显著降低路堤下桩体承担的拉应力及弯矩,其临界破坏模式是弯曲破坏,相比于无桩帽情况,其连续破坏特性更为显著;增大桩帽尺寸可以有效降低桩体承担荷载,提高路堤稳定性,但存在桩帽发生破坏的风险,因此在设计时需对桩帽承载能力进行验算。

     

    Abstract: The design of cap in rigid columns, which has been widely used in engineering practice, can avoid the stress concentration at the column top and enhance the performance of composite foundation. However, the effects of the cap on the stability and progressive failure of rigid column-supported embankment is relatively lacking. A finite difference numerical model is established to simulate the behavior of rigid columns with cap. The influences of the cap on the stress and failure mode of the columns under embankment loads are analyzed, and those of different cap sizes on the stability of embankment are compared. The results show that the tensile stress and the bending moment decrease significantly when cap is used, and the critical failure mode is bending failure. Compared with that of the case without cap, the continuous failure of the case with cap is more obvious. An increase in the cap size can effectively reduce the loads on the columns and improve the stability of the embankment, but there is a risk of cap damage. Therefore, it is necessary to estimate the bearing capacity of the cap in the design.

     

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