脲酶矿化胶结砂土的单轴压缩离散元分析OA
Discrete element analysis of uniaxial compression test of EICP cemented sand soil
酶诱导碳酸钙沉淀(EICP)是一种具有广阔前景的土体固化改良技术.为探究EICP胶结砂土的受力破裂机理和细观特性,基于PFC2D研究不同胶结水平、不同碳酸钙分布的胶结砂试样在单轴压缩试验中的力学参数、颗粒位移和微裂纹发展过程,解释其变形和破坏机制.结果表明:与室内试验相比,考虑碳酸钙含量、分布和颗粒接触模型的离散元模拟能较好地反映胶结砂试样的力学性能和变形特性;低胶结水平的试样发生局部剪切破坏,破坏面出现在中部碳酸钙含量较低的部位;随着胶结水平的提升,砂土颗粒平均位移减小,位移方向靠近轴向压缩的方向,试样发生整体劈裂破坏;胶结水平越高,试样中颗粒接触的分布越均匀,胶结破坏带扩展越慢,裂纹生长速率越低.
Enzyme-induced calcium carbonate precipitation(EICP)is a soil solidification and improvement technique with broad prospects.In order to study the mechanical fracture mechanism and meso-properties of EICP stabilized sand,this paper,based on PFC2D,studies the mechanical parameters,particle displacement and microcrack development process of cemented sand samples with different cementation levels and different calcium carbonate distributions in uniaxial compression tests to explain their deformation and failure mechanisms and failure evolution laws.The results indicate that discrete element simulation considering the content,distribution,and particle contact model of calcium carbonate can better reflect the mechanical and deformation characteristics of the cemented sand specimens compared with laboratory tests.Specimens with a low level of cementation undergo local shear failure,and the failure surface emerges in areas with lower calcium carbonate content in the middle.With an increase in cementation level,average particle displacement in sandy soil becomes smaller,and the direction of particle displacement is closer to the axial compression direction of the specimen,leading to splitting failure with better global stability.The higher the level of cementation is,the more uniform the distribution of particle contacts in specimens is observed,resulting in slower extension rates for both crack growth and zones experiencing cementation failure.
张建伟;蒋洪亮;尹悦;王培坤;王俊
河南大学 建筑工程学院,河南 开封 475004||河南省历史建筑智能保护与修复工程研究中心,开封 475004河南大学 建筑工程学院,河南 开封 475004中国科学院武汉岩土力学研究所,武汉 430071河南大学 建筑工程学院,河南 开封 475004许昌学院 土木工程学院,河南 许昌 461000
建筑与水利
酶诱导碳酸钙沉淀砂土固化离散元模拟单轴压缩试验
enzyme-induced calcium carbonate precipitation(EICP)sand soil solidificationdiscrete element simulationuniaxial compression test
《土木与环境工程学报(中英文)》 2026 (3)
21-29,9
河南省科技研发计划联合基金(225200810005)河南省自然科学基金(232300420073) Joint Fund of the Technical R&D Program of Henan Province(No.225200810005)Natural Science Foundation of Henan Province(No.232300420073)
评论