干湿循环下膨胀土纳米尺度微观结构演化的小角中子散射研究OA
Small-angle neutron scattering study of nanoscale microstructural evolution of expansive clay under drying-wetting cycling
干湿循环过程中膨胀土纳米尺度微观结构演化会显著影响其宏观水力特性.囿于测试范围和精度,现有试验方法难以定量表征膨胀土纳米尺度微观结构演化.本文首次尝试采用小角中子散射技术来定量表征干湿循环过程中膨胀土纳米尺度微观结构演化.结果表明,膨胀土微观结构孔径分布在2~100 nm范围内,呈现出双峰特性,分别对应亚堆叠体间孔和颗粒间孔.对于整个干湿循环,两类微观结构的总体应变在脱湿和增湿过程中分别增大约11%和减小约10%.其中,亚堆叠体间孔变化主导了该探测范围微观结构体积变化.中子散射测试结果与等温吸附物理模型对比分析表明亚堆叠体间孔体积变形的潜在物理诱因为外部吸附作用.本研究揭示干湿循环影响土体渗透、膨胀及抗剪性能的微观机理,为膨胀土微观结构调控及改良提供依据.
The evolution of nanoscale microstructure of expansive clay during drying-wetting cycling significantly affects their macroscopic hydro-mechanical properties.Due to limitations in testing scope and accuracy,the existing test methods are difficult to quantitatively characterize the nanoscale microstructural evolution of expansive clay.In this paper,the first attempt is made to quantitatively characterize the nanoscale microstructural evolution of expansive clay during drying-wetting cycling using small-angle neutron scattering technique.The results show that the microstructural pore size distribution of expansive clay exhibits bimodal characteristics in the range of 2~100 nm,corresponding to inter-sub-stack pores and inter-particle pores,respectively.For the whole drying-wetting cycling,the overall volumetric strain of these two types of microstructures increases by about 11%and decreases by about 10%during drying and wetting process.Among them,the inter-sub-stack pore variations dominate the microstructure volume changes in this detection range.Comparative analysis of the neutron scattering test results and the isothermal adsorption physical model shows that the potential physical inducement of the volume deformation inter-sub-stack pores is external adsorption.This study reveals the microscopic mechanisms by which drying-wetting cycling affects the hydraulic conductivity,swelling,and shear strength of soils,providing a theoretical basis for the regulation and improvement of expansive soil microstructure.
张超;宜小磊;苟凌云;柯于斌;郭帅成
湖南大学 土木工程学院,湖南 长沙 410082湖南大学 土木工程学院,湖南 长沙 410082湖南大学 土木工程学院,湖南 长沙 410082散裂中子源科学中心,广东 东莞 523800||中国科学院高能物理研究所,北京 100049湖南大学 土木工程学院,湖南 长沙 410082
建筑与水利
小角中子散射膨胀土纳米尺度微观结构干湿循环土-水相互作用
small-angle neutron scatteringexpansive claynanoscale microstructuredrying-wetting cy-clingsoil-water interaction
《湖南大学学报(自然科学版)》 2026 (3)
99-107,9
国家重点研发计划项目(2024YFC3809000),National Key R&D Program Project of China(2024YFC3809000)国家自然科学基金资助项目(52078208,52090083),National Natural Science Foundation of China(52078208,52090083)
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