Concentrated effect of drying agents on mechanical performance of clay soil

IF 0.1 Q4 MULTIDISCIPLINARY SCIENCES Tomsk State University Journal Pub Date : 2023-06-25 DOI:10.31675/1607-1859-2023-25-3-169-184
E. N. Alkaev, A. Lunev
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Abstract

In modern construction, more and more attention is paid to the roadbed quality. At the same time, in most regions of the Russian Federation there is a shortage of natural building materials of the required quality. In this regard, methods of stabilizing natural clay soils should be developed to satisfy the regulatory documentation.Purpose: The chemical additive effect on mechanical properties of clay soil.Methodology: The proposed method of concentrated effect of drying agents (lime, active fly ash) can potentially improve the mechanical performance of clay soils, i.e., strengthen the soil. Compressive strength testing of clay soil (light powdery loam) includes its treatment in hydrated lime in the amount of 2, 4 and 6 wt.%, hydrated high-calcium fly ash in the amount of 4, 8 and 12 wt.%, and a combination of slaked lime and chemical additives-accelerators (CaCl2, FeSO4, NaOH) in the amount of 0.5 and 1.0 % of the dry soil mass.Research findings: Even small amounts of lime improve the clay soil strength, which exceeds the effect from the fly ash introduction by 194 %. CaCl2 and NaOH additives significantly accelerate the strength gain. The introduction of FeSO4 improves the strength gain kinetics at the first stage (up to 7 days) and further causes a complete destruction of the material structure. The compaction also shows a significant decrease in the tensile strength during the time between the dry agent introduction and compaction.
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干燥剂对粘性土力学性能的集中影响
在现代建设中,路基质量越来越受到人们的重视。与此同时,在俄罗斯联邦的大多数地区,缺乏所需质量的天然建筑材料。在这方面,应该开发稳定天然粘土的方法,以满足规范性文件。目的:研究化学添加剂对粘土力学性能的影响。方法:提出的干燥剂(石灰、活性粉煤灰)的浓缩效应方法可以潜在地改善粘土的力学性能,即加强土壤。粘土(轻粉状壤土)的抗压强度试验包括:在含水量为2、4、6 wt.%的水化石灰中处理,在含水量为4、8、12 wt.%的水化高钙粉煤灰中处理,以及在干土质量的0.5、1.0%的水化石灰和化学添加剂—促进剂(CaCl2、FeSO4、NaOH)的组合中处理。研究发现:即使少量的石灰也能提高粘土的强度,其效果比粉煤灰的引入提高了194%。CaCl2和NaOH添加剂显著促进了强度的增加。FeSO4的引入改善了第一阶段(长达7天)的强度获得动力学,并进一步导致材料结构的完全破坏。在干剂加入和压实之间的这段时间内,拉伸强度也有明显的下降。
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Tomsk State University Journal
Tomsk State University Journal MULTIDISCIPLINARY SCIENCES-
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