Bearing Characteristics of Diaphragm Wall Foundation under Vertical and Combined Load

W. Gong
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Abstract

To investigate the bearing characteristics of diaphragm wall foundation under combined load, the results from elasto-plastic analyses of 3D finite element models (FEM) were presented in this study. The vertical load of the diaphragm wall foundation is borne by inner and outer side resistance, resistance of soil core and the end of wall, respectively. Moreover, the sum of end resistance and soil core resistance accounts for about 75% of the vertical load. The mobilization mechanism and distribution of side resistance of the foundation were also analyzed. It is clarified that the mobilization characteristics of inner and outer side resistance of the wall are completely opposite. Due to the combined load, the horizontal load has an amplification effect on the settlement of the foundation. Additionally, the calculation methods of the Eight-component Winkler spring model and rigid pile displacement were used for determining the vertical load-bearing capacity and the overturning stability. A comparison between results from the FEM and the theoretical calculation methods showed that the results of the numerical simulation properly coincided with that of the displacement solution of theoretical model. The conclusions obtained by the above methods all indicate that the foundation has the characteristics of overall overturning failure under the combined load.
竖向及组合荷载作用下地下连续墙基础承载特性研究
为了研究连续墙基础在联合荷载作用下的承载特性,采用三维有限元模型进行弹塑性分析。地下连续墙基础的竖向荷载分别由内外侧阻力、土芯阻力和墙端阻力承担。端部阻力和土芯阻力之和约占竖向荷载的75%。分析了地基侧阻力的动员机理和分布规律。阐明了墙体内外侧阻力的动员特性是完全相反的。由于组合荷载作用,水平荷载对基础沉降有放大效应。采用八分量温克勒弹簧模型和刚性桩位移计算方法确定竖向承载力和倾覆稳定性。有限元计算结果与理论计算方法的比较表明,数值模拟结果与理论模型的位移解吻合较好。以上方法得出的结论均表明,地基在联合荷载作用下具有整体倾覆破坏的特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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