考虑空间土拱效应的非饱和地层圆形基坑围护结构侧向土压力计算方法OA
Calculation methods of lateral earth pressure on retaining structures for a circular foundation pit in unsaturated soils considering the spatial soil arching effect
为合理描述非饱和地层圆形基坑围护结构侧向土压力沿深度的大小、分布、合力及作用点高度,基于非饱和土的吸应力理论与极限平衡法,首先推导了对吸应力均匀/线性分布都适用的围护结构后方土体滑动面倾角,然后组合竖向土拱和环向土拱的不同作用,建立了空间土拱效应下非饱和地层圆形基坑围护结构侧向土压力的计算方法,并对比已有理论解答和模型试验数据进行验证、分析相关因素的影响规律.研究结果表明:计算方法不仅与文献理论解答、模型试验数据吻合良好,验证了其准确性和合理性,而且有效解决了非饱和地层、空间土拱效应、结构-土体接触参数等对圆形基坑侧向土压力的综合影响,有助于实现圆形基坑的设计与施工优化,具有一定的理论意义和良好的应用前景;基坑侧向土压力合力随着地表吸应力的绝对值、环向应力系数、外黏聚力的增加而明显减小,而合力作用点高度的变化却不大;线性吸应力下的基坑侧向土压力大于均布吸应力下的,但均布吸应力下的侧向土压力变化更显著.
To reasonably capture the magnitude,distribution,resultant force,and action point height of lateral earth pressure with depth on retaining structures for a circular foundation pit in unsaturated soils,the inclination angle of the soil sliding surface behind retaining structures was first derived.The derivation,suitable for both uniform and linear profiles of suction stress,was based on the suction stress theory of unsaturated soils and the limit equilibrium method.Subsequently,a method for calculating lateral earth pressure on retaining structures of circular foundation pits in unsaturated soils was introduced by integrating the characteristics of vertical and circumferential soil arches to account for the spatial soil arching effect.Additionally,the proposed calculation method was validated by comparing it with existing theoretical solutions and model test data,and the influence of relevant factors was analyzed.The results show that the proposed calculation method not only demonstrates excellent consistency with existing theoretical solutions and model test data,confirming its accuracy and rationality,but also effectively addresses the comprehensive effects of unsaturated formation,spatial soil arching,and structure-soil contact parameters on the lateral earth pressure of circular foundation pits.This contributes to optimizing the design and construction of circular foundation pits.Consequently,the proposed calculation method holds theoretical significance and promising practical applications.The resultant force of lateral earth pressure for a foundation pit significantly decreases with an increase in absolute value of surface suction stress,circumferential stress coefficient,and external cohesion.However,the variation in the action point height of the resultant force remains relatively minor.Lateral earth pressure under a linear profile of suction stress is greater than under a uniform profile.However,the variation in lateral earth pressure is more pronounced under the uniform profile of suction stress.
徐杰;张振光;李海祥
上海公路桥梁(集团)有限公司,上海 200433上海公路桥梁(集团)有限公司,上海 200433长安大学 建筑工程学院,陕西 西安 710061
建筑与水利
圆形基坑侧向土压力空间土拱效应吸应力极限平衡法
circular foundation pitlateral earth pressurespatial soil arching effectsuction stresslimit equilibrium method
《岩土力学》 2026 (1)
245-254,10
上海市住房和城乡建设管理委员会科研项目(沪建科2021-002-013)上海市2023年度"科技创新行动计划"(No.23DZ1202200)上海市青年科技启明星计划(No.24QB2702200). This work was supported by the Research Project of Shanghai Municipal Commission of Housing and Urban-rural Development(2021-002-013),2023 Shanghai Action Plan for Science,Technology and Innovation(23DZ1202200)and Shanghai Rising-Star Program(24QB2702200).
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