Fractal model for water-mineral interaction of expansive soils

Yan Cheng; Lin Wang; Yongfu Xu

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Fractal model for water-mineral interaction of expansive soils

机译：膨胀土壤水-矿物质相互作用的分形模型

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Water-mineral interaction in expansive soils is discussed under environmental loads in water chemistry. Water and clayparticles interact with each, and water molecules are strongly attracted to and adsorbed on clay particle surfaces of expansivesoils. The normalized adsorbed water volume to the montmorillonite volume of expansive soils is deduced from theenergy balance based on the surface fractal model for montmorillonite. A postulate of mass transfer of adsorbed water fromsolid-to-solution fraction caused by chemical load is then discussed. Theory on effective stress of expansive soils affectedby chemical loads is developed to deal with the effects of chemical swell and shear strength. The generalized theories on theswelling deformation and shear strength of expansive soils are developed to deal with the effects of chemical loads.

机译：在水化学中，在环境负荷下讨论了膨胀土壤中的水-矿物质相互作用。水和粘土颗粒相互作用，水分子强烈地吸引并吸附在膨胀土壤的粘土颗粒表面。基于蒙脱石表面分形模型，推导了膨胀土蒙脱石体积的归一化吸附水量。然后讨论了由化学负荷引起的吸附水从固体到溶液部分的传质假设。发展了受化学负荷影响的膨胀土有效应力理论，以应对化学膨胀和剪切强度的影响。发展了膨胀土膨胀变形和抗剪强度的广义理论来应对化学负荷的影响。

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来源
《Bulletin of engineering geology and the environment》 |2023年第10期|387.1-387.14|共14页
作者
Yan Cheng; Lin Wang; Yongfu Xu;
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作者单位

Department of Civil Engineering, Shanghai Jiao Tong University, Shanghai 200240, People’s Republic of China;

Zhenjiang Highway Development Center, Zhenjiang 212127, People’s Republic of China;

Department of Civil Engineering, Shanghai Jiao Tong University, Shanghai 200240, People’s Republic of China,Wanjiang Institute of Technology, Maanshan 432000, People’s Republic of China;

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原文格式 PDF
正文语种英语
中图分类土力学、地基基础工程;
关键词
Expansive soil; Water-mineral interaction; Surface fractal dimension; Absorbed water volume; Generalized effective stress; Environmental loads;

机译：广阔的土壤;水-矿物质相互作用;表面分形维数;吸水量;广义有效应力;环境负荷;

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专利

1. Determination of expansive soil strength using a fractal model [J] . Yongfu Xu, Dean Sun Fractals: An interdisciplinary journal on the complex geometry of nature . 2001,第1期

机译：Determination of expansive soil strength using a fractal model
2. Model tests for the inhibition effects of cohesive non-swelling soil layer on expansive soil [J] . Lu Zheng, Tang Chuxuan, Yao HailinShe JianboCheng MingQiu YuZhao Yang Geomechanics and engineering . 2022,第1期

机译：Model tests for the inhibition effects of cohesive non-swelling soil layer on expansive soil
3. Model test on the dynamic characteristics of crack formation in expansive soil slopes under alternate drying and wetting [J] . Zhang Hongri, Yang Jiming, Wang LeiXu Yongfu Acta Geotechnica: An International journal for Geoengineering . 2023,第4期

机译：Model test on the dynamic characteristics of crack formation in expansive soil slopes under alternate drying and wetting
4. Subsidence prediction of reinforced soil layer by geosynthetic using large-scale 1g physical model [C] . Marwan Al Heib, Mouhamad Hassoun, Pascal Villard, International Symposium on Land Subsidence . 2021

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8. Certification of Three NIST Renewal Soil Standard Reference Materials for Element Content: SRM 2709a San Joaquin Soil, SRM 2710a Montana Soil I, and SRM 2711a Montana Soil II. [R] . A. F. Marlow E. A. Mackey R. M. Lindstrom S. E. Long S. J. Christopher 2010

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Fractal model for water-mineral interaction of expansive soils

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