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李绪勇, 杨忠平, 刘纲, 李勇华, 张益铭. 隔离式螺旋桩抗压承载与抗地基冻融特性[J]. 岩土工程学报, 2024, 46(6): 1187-1196. DOI: 10.11779/CJGE20230209
引用本文: 李绪勇, 杨忠平, 刘纲, 李勇华, 张益铭. 隔离式螺旋桩抗压承载与抗地基冻融特性[J]. 岩土工程学报, 2024, 46(6): 1187-1196. DOI: 10.11779/CJGE20230209
LI Xuyong, YANG Zhongping, LIU Gang, LI Yonghua, ZHANG Yiming. Characteristics of compressive bearing capacity and resistance to foundation freeze-thaw of the isolation helical pile[J]. Chinese Journal of Geotechnical Engineering, 2024, 46(6): 1187-1196. DOI: 10.11779/CJGE20230209
Citation: LI Xuyong, YANG Zhongping, LIU Gang, LI Yonghua, ZHANG Yiming. Characteristics of compressive bearing capacity and resistance to foundation freeze-thaw of the isolation helical pile[J]. Chinese Journal of Geotechnical Engineering, 2024, 46(6): 1187-1196. DOI: 10.11779/CJGE20230209

隔离式螺旋桩抗压承载与抗地基冻融特性

Characteristics of compressive bearing capacity and resistance to foundation freeze-thaw of the isolation helical pile

  • 摘要: 基于针对竖向承载并消除地基冻融影响需求所设计的隔离式螺旋桩,结合物理模型试验与有限元数值方法,从桩体受力视角对比揭示了两种特征螺旋桩(S/DS/DcrS/DS/Dcr)受压沉降时桩身受力演化、荷载传递与地基响应特征,以及桩体几何参数对单桩承载力的影响规律及机理;验证了该新型桩抵抗地基冻融变形性能。结果表明:①两种特征桩型底螺旋及以下桩身在受荷沉降过程具有相同受力及演化特征,而其余上部螺旋端阻和螺旋间桩侧摩阻大小及演化特征差异显著。②S/DS/Dcr桩各螺旋端阻相当,且螺旋对下卧土施加附加应力显著提高了其下桩侧摩阻力,并主导了螺旋间桩侧摩阻自上而下近指数衰减趋势;S/DS/Dcr桩上部螺旋端阻仅约为1/5底螺旋端阻。③两种特征桩型单桩承载力随顶螺旋埋深比、螺旋直径与螺旋数量增长线性提升,随中心桩桩径增长先线性增大后加速衰减,桩型参数对S/DS/Dcr桩承载力影响更显著;S/DS/Dcr桩承载力随S/D增长显著提升,相反S/DS/Dcr桩承载力线性衰减。④螺旋桩较传统桩具有显著抗地基冻融变形影响优势,在冻土深度内设置隔离套可进一步消除影响。

     

    Abstract: Based on the isolation helical piles designed to resist vertical loads and eliminate the effects of freeze-thaw of foundation, the characteristics of force evolution, load transfer, and foundation response of two typical types of helical piles (S/D < S/Dcr and S/DS/Dcr) during settlement, as well as the influences and mechanisms of pile geometries on the bearing capacity of the single pile are revealed from the perspective of pile force. Furthermore, the performance of the new piles against freeze-thaw deformation of foundation is examined. The results show that: (1) The bottom helixes and the lower pile bodies of the two typical piles share the same stress characteristics during the settlement, whereas the stress magnitude and evolution characteristics of end resistances of the remaining upper helixes and side friction resistances of inter-helixe piles differ significantly. (2) The end resistance of each helix of piles with S/DS/Dcr is essentially equal, and the additional stress that the helixes exert on the underlying soil significantly enhances the side friction of piles. This also determines the top-down near-exponential decay trend of the pile side frictional resistance between the helixes. The end resistances of the upper helixes are only about 1/5 of the bottom ones for the piles with S/D < S/Dcr. (3) The compressive bearing capacities of the two types of piles all grow linearly as the embedment ratio, helix diameter and helix number increase, and linearly increase first and then decrease rapidly with the increment of pile diameters. These pile geometries possess heavier impacts on the bearing capacity of piles with S/DS/Dcr. The bearing capacity of piles with S/D < S/Dcr increases significantly with the increase of S/D, whereas that of piles with S/DS/Dcr decreases linearly. (4) The helical pile has a significant advantage over the conventional pile in resisting the impact of freeze-thaw deformation of foundation. The impact can be further eliminated by installing an isolation sleeve on the pile within the frozen soil depth.

     

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