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麦远俭. 扶壁结构土压力的计算[J]. 岩土工程学报, 1982, 4(1): 24-33.
引用本文: 麦远俭. 扶壁结构土压力的计算[J]. 岩土工程学报, 1982, 4(1): 24-33.
Mai Yuan-jian. On the Calculating of Earth Pressure Acting on Counterfort Structure[J]. Chinese Journal of Geotechnical Engineering, 1982, 4(1): 24-33.
Citation: Mai Yuan-jian. On the Calculating of Earth Pressure Acting on Counterfort Structure[J]. Chinese Journal of Geotechnical Engineering, 1982, 4(1): 24-33.

扶壁结构土压力的计算

On the Calculating of Earth Pressure Acting on Counterfort Structure

  • 摘要: 本文从扶壁结构填土的力平衡条件出发,提出了当建筑物后背填土处于主动极限平衡状态或弹性静止状态时作用在各构件(包括立板、肋板、底板)上土压力的理论计算方法。由于肋摩擦的影响,作用在扶壁立板上的土压力与古典的库仑或朗金土压力不同。肋摩擦效应使立板上的水平土压力显著减小,同时底板上的垂直土压力也小于上载压力。土压力强度沿深度的分布是非线性的。对立板和底板的减压效果同肋摩擦的发挥效果以及肋间距的大小有关。从一些模型试验和原体观测资料的验算可知理论计算与实测结果基本相符。以广州黄埔新港钢铁码头为例,当考虑墙摩擦角δ=Ф/3时,立板上的水平土压力可比古典主动土压力约小40%,底板上的垂直土压力可比上载压力约小30%。

     

    Abstract: Based on the balance of forces acting on interior earth fill of a counterfort structure, this paper proposes a theoretical calculation method of earth pressure on each member (including wall slab, counterfort and bottom slab) when the earth fill behind structure is in the condition of active critical equilibrium. Bacausa ths friction effect of counterfort, earth pressure on the wall slab, in fact,is entirely different from classic theory(Cou-lomb or Rankine) which is used for calculating stability of structure. The friction effect of counterfort results in a remarkable decrease of the horizontal earth pressure on the wall slab. Meanwhile, the vertical earth pressure on the bottom slab is also less than the overburden pressure. The distribution of earth pressure intensity on the wall slab with depth is non-linear. Results of reducing pressure on wall slab and bottom slab depend oa the mobilized friction force of counterfort face and the distance between two counterforts. Calculation for some data of model tests and field observations indicates the theoretical values calculated by the method in this paper are in general agreement with the measured values on models. In the Steel Wharf of Huang-pu New Port, as an example, the horizontal earth pressure on the wall slab is less about 40% than the classic active earth pressure and the vertical one on the bottom slab about 30% than the overburden pressure when friction between embankment fill and concrete wall is considered as δ=φ/3

     

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