Effect of Lime Filling on the Compactibility of Clay Soils

IF 1.1 Q3 ENGINEERING, CIVIL Civil and Environmental Engineering Pub Date : 2022-11-07 DOI:10.2478/cee-2022-0047
R. Bulko, S. Masarovicová
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引用次数: 3

Abstract

Abstract Insufficient resilience of the natural environment is one of the many problems with the foundation of linear structures, and one of the ways to solve the foundation of a linear structure is the stabilization of soils. Fine-grained soils are problematic for traffic construction. The properties of clay soils change due to climatic conditions. They swell and become plastic in the presence of water, shrink in dry conditions, increase in volume, and freeze due to frost. Improving the properties of fine-grained soils with lime is a suitable solution to the problem in traffic construction. The purpose of soil improvement is to modify soil properties such as creating soil without cavities and gaps, increasing shear strength, reduce compressibility and permeability, the soil must be able to transfer the load without further settling (or unnatural compression). Soil improvement can be defined as an intervention in the natural geological environment or artificially built earth structures (embankments, notches), the purpose of which is to increase the resistance of the subsoil, achieve even settlement of the structure or object, accelerate consolidation, optimally build earth structures, etc. We can encounter the stabilization of the subsoil in all types of constructions, but most often in line constructions and water management construction. In our article, we focus on the effects of soil treatment with lime. The treated soil was F8 (CH) clay with high plasticity.
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石灰充填对粘土压实性的影响
摘要:自然环境回弹性不足是线性结构基础面临的诸多问题之一,解决线性结构基础的途径之一是土体稳定。细粒土壤对交通建设来说是个问题。粘土的性质随着气候条件的变化而变化。它们在有水的情况下膨胀并变成塑料,在干燥的条件下收缩,体积增加,并因霜冻而冻结。用石灰改善细粒土的性能是解决交通建设中存在的问题的一种合适的方法。土壤改良的目的是改变土壤的性质,如创造无空洞和空隙的土壤,增加抗剪强度,降低压缩性和渗透性,土壤必须能够在没有进一步沉降(或非自然压缩)的情况下转移负荷。土壤改良可以定义为对自然地质环境或人工建造的土质结构(堤防、沟槽)的干预,其目的是增加底土的阻力,使结构或物体均匀沉降,加速固结,优化土质结构等。地基稳定在各种类型的工程中都可能遇到,但最常见的是线路工程和水利工程。在我们的文章中,我们着重于石灰处理土壤的效果。处理后的土为高塑性的F8 (CH)粘土。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.00
自引率
58.30%
发文量
69
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