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曹利强, 陈湘生, 张顶立, 苏栋. 隔离桩对隧道开挖诱发土体竖向位移牵制效应的理论分析[J]. 岩土工程学报, 2022, 44(5): 916-925. DOI: 10.11779/CJGE202205015
引用本文: 曹利强, 陈湘生, 张顶立, 苏栋. 隔离桩对隧道开挖诱发土体竖向位移牵制效应的理论分析[J]. 岩土工程学报, 2022, 44(5): 916-925. DOI: 10.11779/CJGE202205015
CAO Li-qiang, CHEN Xiang-sheng, ZHANG Ding-li, SU Dong. Theoretical investigation of restraint effect of isolation piles on vertical ground displacements due to tunneling under the plane state[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(5): 916-925. DOI: 10.11779/CJGE202205015
Citation: CAO Li-qiang, CHEN Xiang-sheng, ZHANG Ding-li, SU Dong. Theoretical investigation of restraint effect of isolation piles on vertical ground displacements due to tunneling under the plane state[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(5): 916-925. DOI: 10.11779/CJGE202205015

隔离桩对隧道开挖诱发土体竖向位移牵制效应的理论分析

Theoretical investigation of restraint effect of isolation piles on vertical ground displacements due to tunneling under the plane state

  • 摘要: 隔离桩作为一种高效的防护措施被广泛应用于城市隧道施工环境效应的控制中。基于两阶段理念建立了可考虑隔离桩与土体之间相对滑移(采用桩侧弹簧与桩端弹簧模拟)的桩-土竖向相互作用的解析模型。基于该模型并引入变形协调关系,利用改进的Loganathan-Poulos(L&P)公式和一般化的竖向位移的Melan解,求解了隔离桩与土体之间的相互作用力(即弹簧内力)。利用叠加原理,进一步求解了隔离桩牵制下隧道开挖引起的地层竖向位移,该结果通过与既有解析方法和现场实测数据对比得到了验证。基于新提出模型的解析结果,分析并揭示了隔离桩对地层竖向位移发挥牵制作用的力学机制。研究表明,隔离桩对土体的牵制作用可以分为向上牵制和向下牵制两个部分,向上和向下牵制作用相结合共同驱使土体竖向位移沿深度方向由原来的隧道开挖引起的不均匀状态转变为相对均匀状态。隔离桩的桩侧与桩端弹簧刚度决定了桩与土体相互作用的程度,其刚度越小则相互作用力越小,桩与土体的相对位移越大,向上与向下牵制效应也越小。相关研究可为隔离桩的设计和效应评估做出理论指导。

     

    Abstract: As an efficient protective measure, the isolation piles are widely used in the control of tunneling-induced environmental effects in urban areas. Based on the two-stage concept, a vertical pile-soil interaction model that can consider the relative slip between the isolation pile and the soil (simulated by the pile shaft spring and the pile tip spring) is established. Based on this model and introducing the displacement compatibility condition, using the modified Loganathan-Poulos (L&P) formula and the Melan solution of the vertical displacement in a general form, the interaction forces between the isolation pile and the soil (i.e., the internal force of the springs) are solved. Using the superposition principle, the ground vertical displacements caused by tunnel excavation under the restraint of isolation piles are further solved. The results are verified by comparing with those of the existing analytical methods and field measured data. Based on the analytical results of the proposed model, the mechanical mechanism of the effects of the isolation piles on the ground vertical displacements is investigated. The studies have shown that the restraint effect of the isolation piles on soil can be divided into two parts, upward part and downward part. The combination of the upward and downward effects together drives the tunneling-induced ground vertical displacements along the depth direction to change from non-uniform state to a relatively uniform one. The spring stiffness of the pile shaft and pile tip determines the degreeof interaction between the pile and the soil. The smaller the stiffness, the smaller the interaction force, the greater the relative displacement between the pile and the soil, and the smaller the upward and downward restraint effects. The related research may provide theoretical guidance for the design and effect evaluation of isolation piles.

     

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