条形基础下格栅加筋地基的细观机理  

作　　者：侯娟[1,2,3] 徐东 张宸[1] HOU Juan;XU Dong;ZHANG Chen(School of Mechanics and Engineering Science,Shanghai University,Shanghai 200444,China;School of Engineering,University of Virginia,Charlottesville,VA 22904,USA;State Key Laboratory of Geomechanics and Geotechnical Engineering,Institute of Rock and Soil Mechanics,Chinese Academy of Sciences,Wuhan 430071,China)

机构地区：[1]上海大学力学与工程科学学院,上海200444 [2]School of Engineering,University of Virginia,Charlottesville,VA 22904,USA [3]中国科学院武汉岩土力学研究所岩土力学与工程国家重点实验室,武汉430071

出　　处：《上海大学学报（自然科学版）》2023年第6期1030-1041,共12页Journal of Shanghai University:Natural Science Edition

基　　金：国家自然科学基金资助项目(51978390,51778353);中国留学基金资助项目(CSC201906895014);岩土工程国家重点实验室开放研究基金资助项目(Z018007)。

摘　　要：格栅加筋地基是在基础下一定深度范围内铺设适当的土工格栅,以此来改善地基承载性能的地基处理形式.基于模型试验,采用三维颗粒流软件(3D particle flow code,PFC^(3D))模型,建立了条形基础下格栅加筋地基的颗粒流数值模型.通过分析地基中整体应力分布、砂土颗粒位移、砂土颗粒接触力、筋材变形及筋土相互作用等,研究了条形基础下格栅加筋地基的承载性能和细观加固机理.结果表明:在条形基础下,格栅能较好地均化上覆条形荷载;格栅主要发挥加筋作用的长度约为1.3~1.5倍基础宽度.格栅加筋地基的主要加固机理为格栅网孔结构的嵌固作用.嵌固作用使得颗粒与格栅协同作用形成一个整体,并进行应力重分布,进而提高整体格栅加筋地基的承载性能.此外,水平格栅的横肋对土体的阻挡力是导致纵肋产生拉力的主要原因.在条形上覆荷载下,格栅的变形存在一个反弯点.格栅对反弯点一侧的土体产生向上的作用力,对反弯点另一侧的土体产生向下的作用力.格栅的张拉膜效应调节了整体地基的不均匀沉降.The geogrid reinforced foundation is a foundation treatment method to improve the bearing capacity of the foundation by laying appropriate geogrids at a certain depth under the footing.Based on model tests,a 3D particleflow code(PFC^(3D))was applied to simulate the geogrid reinforced foundation under strip footing.The bearing capacity and the reinforcement mechanism of the geogrid reinforced foundation were investigated by an-alyzing stress distribution,sand particle displacement,sand particle contact force,geogrid deformation and geogrid-sand interaction,et al.The results demonstrated that a more uniform loading was applied on the foundation by using the geogrid reinforcement,and the effective reinforcement length was approximately 1.3∼1.5 times of the footing width.The primary reinforcement involved surrounding soil materials to interlock across the ge-ogrid plane.This interlocking enhanced passive resistance,rendering the geogrid-reinforced foundation more integral.Consequently,stress redistribution occurred,leading to an im-provement in bearing capacity.In addition,the lateral restraint of the transverse ribs was the main reason for inducing a tensile force in the longitudinal ribs.The deformation of geogrid had a reverse bending point under the applied loading.An upward and downward force was applied to the sand particles at the two sides of the reverse bending point,respec-tively.The tension membrane mechanism of the geogrid decreased the uneven settlement in the overall geogrid reinforced foundation.

关 键 词：加筋地基 土工格栅 加固机理 三维颗粒流软件 接触力 

分 类 号：TU472[建筑科学—结构工程]