人民长江2024,Vol.55Issue(2) :211-215,230.DOI:10.16232/j.cnki.1001-4179.2024.02.027

两种气体作用下非饱和江边吹填砂三轴试验研究

Triaxial compression test on unsaturated riparian hydraulic fill sand under action of two gases

吴炎 胡坤 姜马欢 李荟楠 彭哲
人民长江2024,Vol.55Issue(2) :211-215,230.DOI:10.16232/j.cnki.1001-4179.2024.02.027
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两种气体作用下非饱和江边吹填砂三轴试验研究

Triaxial compression test on unsaturated riparian hydraulic fill sand under action of two gases

吴炎 1胡坤 2姜马欢 1李荟楠 1彭哲1
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作者信息

  • 1. 常州大学怀德学院 建筑与环境工程系,江苏 泰州 214500
  • 2. 常州大学 城市建设学院,江苏 常州 213164
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摘要

为了研究非饱合土体中充入空气或CO2 气体所导致的土样不同物理力学性质,以长江边的吹填细砂为对象,通过改变细砂的含水率,往土样通入空气和CO2,采用固结不排水三轴试验分析了两种不同气体作用下细砂的应力-应变曲线及抗剪强度指标.研究结果表明:两种气体在低围压下使得细砂的应力-应变曲线表现为应变软化型,高围压下曲线为硬化型.围压作用下充CO2 细砂具有低孔隙率和高密实度特征,导致充CO2细砂的抗剪强度大于充空气的细砂.在高围压下,细砂颗粒联系更加紧密,更多依靠颗粒骨架传递应力,使得两种气体作用下细砂抗剪强度的差别变小.细砂含水率从4%增至12%时,充CO2 细砂的黏聚力是充空气细砂黏聚力的2.62~4.37 倍,据此可在工程建设中对有机质含量高的非饱合细砂充入CO2 气体,以起到加固土体的效果.

Abstract

In order to study the different physical and mechanical properties of unsaturated soil filled with air or CO2,this study focused on the hydraulic reclamation fine sand along the Changjiang River.We manipulated water content of the fine sand samples filled with air and CO2 respectively and carried out a consolidated undrained triaxial compression test on them.We analyzed the stress-strain curves and shear strength indexes of the fine sand under the action of air and CO2.The results indicated that the fine sand's stress-strain curves exhibited a strain softening type under low confining pressure and a hardening type in high confi-ning pressures.Fine sand filled with CO2 had low porosity and high compactness,resulting in greater shear strength compared to fine sand filled with air.In high confining pressures,the fine sand particles were more closely interconnected,and stress transfer was more relied on the particle skeleton,so the difference in shear strength of fine sand under the action of two gases was reduced.Increasing the water content of fine sand from 4%to12%,the cohesion force of fine sand filled with CO2 were2.62 to4.37 times larger than that of fine sand filled with air.The effect of different gases on the internal friction angle of fine sand can not be ig-nored,which lies a theoretical basis for unsaturated fine sand consolidation by filling CO2 into it.

关键词

CO2/非饱和土体/细砂/含水率/三轴试验

Key words

CO2/unsaturated soil/fine sand/water content/triaxial compression test

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基金项目

中国博士后科学基金面上项目(2021M703507)

江苏省产学研合作项目(BY2021208)

泰州市科技支撑计划(社会发展)项目(SSF20210062)

出版年

2024
人民长江
水利部长江水利委员会

人民长江

CSTPCD北大核心
影响因子:0.451
ISSN:1001-4179
参考文献量25
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