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Table of Content

    25 April 2021, Volume 40 Issue 12 Previous Issue    Next Issue
    The Evaluation of Deformation Induced by Excavation Considering the Properties of Diaphragm-Soil Interface
    FAN Wei, WANG Jian-hua, CHEN Jin-jian
    2006, 40 (12):  2118-2121.  doi: 10.16183/j.cnki.jsjtu.2006.12.022
    Abstract ( 380 )   HTML ( 1196 )   PDF (510KB) ( 264 )   Save

    A three-dimensional finite element method by considering the properties of the diaphragm wall-soil interface was applied to analyze the excavation of a deep foundation pit in Shanghai soft ground. The simulation results were compared with the monitoring data as well as the simulation results without diaphragm wall-soil contact. The influence of diaphragm-soil interface on the deformation analysis of excavation was discussed. The results of simulation considering the properties of the diaphragm-soil interface show closer agreement with the measure ment data. Moreover, the model without diaphragm wall-soil contact generally gets smaller wall deformation and induced ground movement.

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    Numerical Analysis on the Bearing Capacity of Post-grouting Bored Pile under Vertical Load
    HUANG Ji-long, CHEN Jin-jian, WANG Jian-hua
    2006, 40 (12):  2122-2125.  doi: 10.16183/j.cnki.jsjtu.2006.12.023
    Abstract ( 478 )   HTML ( 105 )   PDF (207KB) ( 266 )   Save

    An analysis model of post-grouting bored pile and soil was built up by numerical method to simulate the bearing capacity of the pile. The results of numerical analysis on the pile load tests are agreement with the measured ones. The effects of post-grouting on bearing capacity were simulated by this method with considering the grouting volume, the strength of grouted soil body, the height of turn-up grout and the improvement of skin friction. The results show that the grouting volume and the strength of grouting soil body have a limited effect on the bearing capacity, and the increasing effect of the grouting volume is also influenced by the length of pile. The height of turn-up grout and the improvement of skin friction have a great effect on the bearing capacity, which is linearly increased with the increasing of the height of turn-up grout and the improvement of lateral friction.

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    A Simplified Calculation for the Settlement of Single Piles in Soft Foundation
    CHEN Jin-jian, WANG Jian-hua, ZHU Feng
    2006, 40 (12):  2126-2129.  doi: 10.16183/j.cnki.jsjtu.2006.12.024
    Abstract ( 420 )   HTML ( 12 )   PDF (200KB) ( 199 )   Save

    The deformation of single piles in soft foundation was studied based on more than 300 in situ data of pile including the settlements at pile-top and pile-tip. The piles are divided into four types: precast concrete pile, hollow concrete pile, steel pipe pile, and cast-in-place pile. Analyzing the in situ data with elasticity theory, a simplified method to predict the shaft compression of pile was presented based on the pile length-diameter ratio. It is shown that the shaft compression of precast concrete pile is the largest, while the compression of cast-in-place pile is the smallest. Therefore, the deformation of single piles is influenced by the squeezing effect obviously. The settlement at pile bottom was calculated by the layer-wise summation method, and the modified method to compute the settlement of single piles was obtained. The comparison analysis for 300 individual piles shows that the modified method can be used to calculate the settlement of pile at working load very well.

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    The Behavior of Piles in Saturated Soil under Surcharge Loads
    WANG Kai-min, WANG Jian-hua, CHEN Jin-jian, HOU Yong-mao
    2006, 40 (12):  2130-2134.  doi: 10.16183/j.cnki.jsjtu.2006.12.025
    Abstract ( 440 )   HTML ( 105 )   PDF (403KB) ( 327 )   Save

    Large settlement occurs in soft clay foundation due to surcharge loads, which will affect the behavior of the pile foundation in site and nearby. Negative piles were studied by FEM considering the pile-soil slippage and consolidation of soil. Then settlement, side displacement, and axial force of piles were discussed and analyzed by using different contact surface of two examples. The comparison between the numerical analysis and in-situ tests shows the efficiency of the method and demonstrates some rules of soil settlement, pile axial force and moment, which can be used in engineering design.

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    The Active Earth Pressure of Circular Pit Subjected to Non-Uniform Surcharge Loading
    LIU Fa-qian, WANG Jian-hua
    2006, 40 (12):  2134-2137.  doi: 10.16183/j.cnki.jsjtu.2006.12.026
    Abstract ( 385 )   HTML ( 105 )   PDF (201KB) ( 205 )   Save

    Based on the limit equilibrium theory for axially symmetric condition, the active earth pressure of circular pit obtained with slip-line method was extended to non-uniform surcharge loading. By analyzing the influence of the radius of pit and soil parameters to the active earth pressure distribution, it was achieved that the influence is identical to Rankine theory. The comparison of slip-line field and active earth pressure distribution under non-uniform and uniform surcharge loading was made, it is show n that the surcharge loading at some region only affects the earth pressure at some specific area. So, it is easy to estimate earth pressure distribution qualitatively according to the distribution of surcharge loading.

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