摘要
针对福建尤溪花岗岩残积土遇水易软化崩解的特性,采用外掺法对其掺入改良剂进行改良,以降低其渗透系数。同时掺入石灰和粉煤灰,灰土质量比(即石灰质量∶粉煤灰质量∶花岗岩残积土质量)分别设置为1∶1∶8,1∶2∶7和1∶3∶6。对福建尤溪花岗岩残积土进行基本土工试验、击实试验和颗粒分析试验,对改良前后的尤溪花岗岩残积土进行变水头渗透试验,试验结果表明:(1)经掺入石灰和粉煤灰改良后的花岗岩残积土,其饱和渗透系数较改良前均有所降低,其抗渗性得到了提高。(2)当灰土质量比为1∶2∶7时,其饱和渗透系数降低幅度最大,改良效果最好。(3)无论重塑土还是改良土,其饱和渗透系数均随孔隙比的增大而增大,随干密度的增大而降低。
In response to the mechanical characteristics of the residual soil of granite in Youxi,Fujian,which is prone to softening and disintegration when encountering water,the external additives mixing method was used to improve its properties by adding additives to reduce its permeability coefficient.Adding ratios of lime,fly ash,and residual soil were set to 1∶1∶8,1∶2∶7,and 1∶3∶6,respectively.Basic physical property index tests,compaction tests,and particle grading analysis tests were conducted on the granite residual soil from Youxi in Fujian.Variable water head permeability tests were conducted on the granite residual soil and improved granite residual soils separately.The test results showed that:(1)The saturated permeability coefficients of the improved granite residual soils by adding lime and fly ash into soil were decreased remarkably compared with that of the remolded residual soil,and its impermeability has been improved.(2)When the ratio of lime,ash,and soil is 1∶2∶7,the decrease in saturated permeability coefficient is the greatest,and the improvement effect in permeability is the best.(3)Whether remolded soil or improved soil,its saturated permeability coefficient increases with the increasing of its pore ratio,and decreases with the increasing of its dry density.
作者
杨雪强
钟华斌
陶家琦
周宝贵
蔡池锋
Yang Xueqiang;Zhong Huabin;Tao Jiaqi;Zhou Baogui;Cai Chifeng(School of Civil and Transportation Engineering,Guangdong University of Technology,Guangzhou 510006,Guangdong,China;China Construction Industrial&Energy Engineering Group Co.,Ltd.,Nanjing 210000,Jiangsu,China)
出处
《岩土工程技术》
2024年第5期598-604,共7页
Geotechnical Engineering Technique
基金
国家自然科学基金项目(51978177)。
关键词
花岗岩残积土
土体改良
击实试验
变水头渗透试验
微观试验
granite residual soil
soil improvement
compaction test
variable water head permeability test
microscopic experiment