粉煤灰稳定膨胀土的胀缩特性

IF 1.3 Q3 ENGINEERING, GEOLOGICAL

Proceedings of the Institution of Civil Engineers-Ground Improvement Pub Date : 2022-02-18 DOI:10.1680/jgrim.21.00024

T. Ashok Kumar, T. Thyagaraj, R. Robinson

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引用次数: 3

摘要

C类粉煤灰是热电厂的副产品，通常被首选用于稳定膨胀土。然而，稳定剂的不当优化可能导致处理过的土壤在干湿循环中过早失效。研究了粉煤灰稳定膨胀土在干湿循环作用下的体积变化特性。此外，还研究了C级粉煤灰和石灰C级粉煤灰对粉煤灰物理性能和工程性能的影响。试验结果表明，在膨胀土中添加20%粉煤灰后，膨胀势由未处理的10.5%降至0%。然而，当经历5次干湿循环后，粉煤灰控制膨胀的初始胶凝作用部分丧失，稳定膨胀土的体积变形从0增加到14.5%。此外，在不同的处理膨胀土的添加剂组合中，4%石灰和20%粉煤灰的组合即使在第5次干湿循环后也只产生了2.05%的体积变形。此外，干燥裂缝的比例也从29%显著降低到0.5%。

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Swell–shrink behaviour of fly ash-stabilised expansive soils

Class C fly ash, a byproduct of thermal power plants, is often preferred for the stabilisation of expansive soils. However, improper optimisation of the stabiliser may lead to the premature failure of treated soils during wet–dry cycles. This study demonstrates the volume change behaviour of fly ash-stabilised expansive soils subjected to wet–dry cycles. Furthermore, the effect of class C fly ash and lime–class C fly ash on the physical and engineering properties is also studied. The experimental results showed that addition of 20% fly ash to the expansive soil reduced the swell potential to 0% from an untreated swell value of 10.5%. However, when it was subjected to five wet–dry cycles, the initial cementitious effect of the fly ash on controlling the swell was partially lost, and therefore the volumetric deformation of the stabilised expansive soil increased from 0 to 14.5%. Furthermore, among the different additive combinations used for the treatment of expansive soils, it was observed that the combination of 4% lime and 20% fly ash resulted in the volumetric deformation of only 2.05% even after the fifth wet–dry cycle. Besides, the percentage of desiccation cracks has also reduced significantly from 29 to 0.5%.

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来源期刊

Proceedings of the Institution of Civil Engineers-Ground Improvement ENGINEERING, GEOLOGICAL-

CiteScore

3.10

自引率

8.30%

发文量

期刊介绍： Ground Improvement provides a fast-track vehicle for the dissemination of news in technological developments, feasibility studies and innovative engineering applications for all aspects of ground improvement, ground reinforcement and grouting. The journal publishes high-quality, practical papers relevant to engineers, specialist contractors and academics involved in the development, design, construction, monitoring and quality control aspects of ground improvement. It covers a wide range of civil and environmental engineering applications, including analytical advances, performance evaluations, pilot and model studies, instrumented case-histories and innovative applications of existing technology.