用氯化钠和蔗渣灰改善膨胀黏性土的土工性质

H. Elsheikh, H. Dowidar, M. Elmashad, A. Baghdady
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摘要

膨胀土含有矿物,如蒙脱石粘土,能够吸收水分,并伴有收缩和膨胀行为,从而改变体积。这些土壤的胀缩特性可能导致在其上发现的结构,特别是轻型结构和路面的不稳定。埃及的大部分地区都有膨胀的粘土。在10月6日市进行了综合研究,探讨了甘蔗厂工业固体废弃物石灰污泥、甘蔗渣灰和氯化钠盐对膨胀土岩土工程性质的影响。通过室内自由膨胀指数、塑性指数和渗透试验对其宏观结构性能进行了量化。通过x射线衍射研究和扫描电子显微镜观察处理过的土壤的微观结构。实验结果表明,随着石灰污泥、蔗渣灰和NaCl浓度的增加,液限从100%降低到60%,塑限从100%提高到90%。此外,入渗试验表明,在土壤中加入LS和甘蔗渣灰后,入渗率从10%增加到80%,自由膨胀率从100%下降到70%。XRD谱图表明,稳定剂产生的大量钙离子反应使蒙脱土转变为高岭土矿物,形成了新的高岭土胶凝化合物,石灰的钙离子与粘土颗粒表面发生了阳离子交换。阳离子交换和吸引的作用使粘土颗粒相互靠近,这一过程称为絮凝。絮凝过程伴随着一系列的火山灰反应,形成粘土聚集体,这些聚集体被新的胶凝产物如铝酸钙结合在一起。扫描电镜(SEM)和扫描电镜(SEM)显微照片显示,由于膨胀土质地的改变和处理土的面间距减小,蒙脱土黏土矿物峰强度降低,高岭石黏土矿物峰强度增加,形成了有组织的致密团聚体粘土基质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improvement of Geo-engineering Properties of Expansive Clayey Soil by using Sodium Chloride and Bagasse Ash
Expansive soils contain minerals such as smectite clays that are capable of absorbing water accompanied by shrink and swell behavior and thus change in volume. The swell–shrink behavior of these soils could lead to instability of the structures found on them, specifically the light-weight structures and pavements. Expansive clay soil is encountered in most parts of Egypt. A comprehensive study was made in Sixth of October city to investigate the impact of lime sludge and bagasse ash as an industrial solid waste from sugar-cane factory and sodium chloride salt on geotechnical engineering properties of expansive soil. The macrostructural properties are quantified through laboratory testing for Free swell index, Plasticity index and infiltration tests. The microstructural aspects of the treated soil are observed through X-ray diffraction studies and SEM micrographs. The laboratory results showed that by increasing the lime sludge, Bagasse ash and NaCl concentrations the liquid limit decreased from 100% to 60% while the plastic limit increased from 100% to 90% respectively. In addition, the infiltration tests showed an increase in the infiltration rate from 10% to 80% when LS and Bagasse ash were added to the soil also the free swell decreased from 100% to 70 % sufficiently. XRD patterns showed the formation of new kaolin cementitious compound as the change of montmorillonite to kaolinite mineral took place due to the reaction of high amount of calcium ions produced from the stabilizer, the cation exchange took place between the calcium cation of the lime associated with the surfaces of the clay particles. The effect of cation exchange and attraction causes clay particles to became close to each other, this process is called flocculation which is accompanied by a series of pozzolanic reactions resulting in the formation of clay aggregates that are bound together by the new cementitious products such as calcium aluminate. Scanning Electron Microscopic images (SEM) and SEM micrographs determined the formation of organized dense clay matrices of aggregations that showed the reduction of Montmorillonite clay mineral peak intensities and an increase in kaolinite clay mineral peak intensities due to the change of expansive soil texture and reduction of interplanar spacing of the treated soil.
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