黄山田,鲁华伟,于文太,等. 打桩过程互层土中桩基侧摩阻力变化研究[J]. 水利水运工程学报,2023(6):126-132.. doi: 10.12170/20220625002
引用本文: 黄山田,鲁华伟,于文太,等. 打桩过程互层土中桩基侧摩阻力变化研究[J]. 水利水运工程学报,2023(6):126-132.. doi: 10.12170/20220625002
(HUANG Shantian, LU Huawei, YU Wentai, et al. Study on change of friction in pile driving in interlayered soil[J]. Hydro-Science and Engineering, 2023(6): 126-132. (in Chinese)). doi: 10.12170/20220625002
Citation: (HUANG Shantian, LU Huawei, YU Wentai, et al. Study on change of friction in pile driving in interlayered soil[J]. Hydro-Science and Engineering, 2023(6): 126-132. (in Chinese)). doi: 10.12170/20220625002

打桩过程互层土中桩基侧摩阻力变化研究

Study on change of friction in pile driving in interlayered soil

  • 摘要: 准确确定打桩过程中的单位侧摩阻力,是提高桩基可打入性分析精度的重要途径。基于某互层土场地现场静力触探数据及高应变动测结果,分析打桩过程中单位侧摩阻力的变化规律。现场打桩全过程动测数据分析显示,与常规场地类似,打桩过程中同一深度的单位侧摩阻力随着贯入深度的增加而降低,总侧摩阻力表现出明显的衰减趋势;土体的互层分布对单位侧摩阻力随深度的变化趋势影响显著,表现为在砂土及粉土层中单位侧摩阻力也出现明显降低。现有的半理论半经验公式无法正确描述上述情况,对于互层土场地,建议黏土层可基于灵敏度确定折减因子,砂土和粉土宜采用与上层黏土相同的折减因子。采用该方法计算得到的单位侧摩阻力与实测值基本吻合。该方法可用于互层土场地的打桩计算,提高桩基可打入性分析精度。

     

    Abstract: Accurately determining the unit friction in pile driving is very important for improving the accuracy of pile driveability analysis. Based on the in-situ cone penetration test data and high strain dynamic test results of an interlayered soil site, the change of unit friction during pile driving is studied. The results show that during the pile driving, although the total friction of pile keeps increasing with increment of penetration depth, and the total friction at the same penetration depth decreases, which is the same as that in ordinary site, the interlayered soil has a significant effect on the change of unit friction with depth. The results of analysis shows that the unit friction also decreases significantly in sand layer and silt layer in the interlayered site, which could not be described correctly with the existing semi theoretical method. In view of this, a calculation method of reduction factor in clay based on sensitivity is proposed. At the same time, it is pointed out that the same reduction factor as that of clay should be used for sandy layer and silt layer for the interlayered soil. The unit friction obtained by the proposed method is basically consistent with the measured value. The proposed method could be used in practice to improve accuracy of pile driveability analysis in an interbedded soil site.

     

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