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丁勇春, 程泽坤, 王建华, 李耀良, 袁芬. 地下连续墙施工力学性状数值分析[J]. 岩土工程学报, 2012, 34(suppl): 87-92.
引用本文: 丁勇春, 程泽坤, 王建华, 李耀良, 袁芬. 地下连续墙施工力学性状数值分析[J]. 岩土工程学报, 2012, 34(suppl): 87-92.
DING Yong-chun, CHENG Ze-kun, WANG Jian-hua, LI Yao-liang, YUAN Fen. Numerical simulation of mechanical behavior of diaphragm wall during construction[J]. Chinese Journal of Geotechnical Engineering, 2012, 34(suppl): 87-92.
Citation: DING Yong-chun, CHENG Ze-kun, WANG Jian-hua, LI Yao-liang, YUAN Fen. Numerical simulation of mechanical behavior of diaphragm wall during construction[J]. Chinese Journal of Geotechnical Engineering, 2012, 34(suppl): 87-92.

地下连续墙施工力学性状数值分析

Numerical simulation of mechanical behavior of diaphragm wall during construction

  • 摘要: 为探讨地下连续墙施工过程中槽壁周围土体的受力与变形机理,采用FLAC3D分析地下连续墙泥浆护壁成槽与混凝土浇筑及硬化全过程的力学性状,探讨槽壁加固、混凝土导墙、刚性地坪及侧边已有墙体等施工因素对槽壁侧向变形和地面沉降的影响。计算结果表明,成槽开挖阶段槽壁具有明显的侧向卸荷效应,混凝土浇筑会产生一定应力补偿;对上海地区幅宽超过5 m的槽段,水平土拱效应几乎可以忽略;槽壁加固对浅层土体的变形约束比对深层土体明显,导墙及刚性地坪仅能约束槽口附近土体的变形;由于水平土拱效应较弱,已有墙体对土体变形的控制效果不明显。

     

    Abstract: A three-dimensional numerical simulation is carried out to investigate the mechanical behavior of diaphragm wall during slurry trenching and concreting. The geotechnical program FLAC3D is employed to establish the numerical model and to study the influence of the construction on lateral displacement of trench face as well as ground surface settlement, which includes trench face reclamation, installation of concrete guide wall and the rigid concrete pavement as well as the adjacent completed panels. The numerical results show that there exists prominent stress redistribution around the individual panel, both horizontally and vertically. Slurry trenching leads to unloading effect owing to the lower bentonite slurry pressure compared with the in-situ at-rest lateral soil pressure, while concreting compensates the effect by exerting the greater liquid concrete pressure on the trench face. Horizontal arching effect can be neglected in Shanghai soft soil deposits when the panel width is over 5 m. The deformation restriction exerted by trench face reclamation on the superficial soil is more pronounced than that on the deep-level strata. The concrete guide wall and the rigid concrete pavement can only restrict the movement of superficial soil around the top of the trench. The adjacent completed panels give unnoticeable impact on the maximum displacement of soil around the constructing panel, owing to the weak horizontal arching effect.

     

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