Model Studies on Settlement of an Expansive Soil Slope Stabilized with GGBS

Jhansi Kammaluri, Janaki Ramudu Dudekula, Sudha Rani Chigurupati
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Abstract

Expansive soils present significant challenges in civil engineering due to their tendency to undergo volumetric changes with variations in moisture content, often resulting in slope instability and settlement issues. This study investigates the effectiveness of stabilizing expansive soil slopes using Ground Granulated Blast Furnace Slag (GGBS) as an additive. The research employs laboratory-scale model studies to simulate the behaviour of expansive soil slopes subjected to varying levels of GGBS stabilization. The settlement characteristics of the stabilized slopes are analysed under different loading conditions and moisture contents. Experimental results indicate that the incorporation of GGBS enhances the properties of expansive soils, reducing settlement and improving slope stability. The findings contribute to the understanding of sustainable solutions for mitigating settlement issues in expansive soil slopes, offering insights for practical applications in geotechnical engineering.
用 GGBS 加固的膨胀土斜坡沉降模型研究
膨胀土由于容易随着含水量的变化而发生体积变化,往往会导致边坡不稳定和沉降问题,因此给土木工程带来了巨大挑战。本研究调查了使用地表高炉矿渣(GGBS)作为添加剂稳定膨胀性土壤斜坡的效果。研究采用实验室规模的模型研究来模拟膨胀性土壤斜坡在不同程度的 GGBS 稳定作用下的行为。在不同的加载条件和含水量下,对稳定斜坡的沉降特性进行了分析。实验结果表明,加入 GGBS 可增强膨胀土的特性,减少沉降并提高边坡稳定性。这些研究结果有助于理解缓解膨胀土斜坡沉降问题的可持续解决方案,为岩土工程的实际应用提供了启示。
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