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Stabilization of expansive soils using chemical additives: A review

Dharmendra Barman, Sujit Kumar Dash

2022Journal of Rock Mechanics and Geotechnical Engineering359 citationsDOIOpen Access PDF

Abstract

Volume instability of expansive soils due to moisture fluctuations is often disastrous, causing severe damages and distortions in the supported structures. It is, therefore, necessary to adequately improve the performance of such soils that they can favorably fulfil the post-construction stability requirements. This can be achieved through chemical stabilization using additives such as lime, cement and fly ash. In this paper, suitability of such additives under various conditions and their mechanisms are reviewed in detail. It is observed that the stabilization process primarily involves hydration, cation exchange, flocculation and pozzolanic reactions. The degree of stabilization is controlled by several factors such as additive type, additive content, soil type, soil mineralogy, curing period, curing temperature, delay in compaction, pH of soil matrix, and molding water content, including presence of nano-silica, organic matter and sulfate compounds. Provision of nano-silica not only improves soil packing but also accelerates the pozzolanic reaction. However, presence of deleterious compounds such as sulfate or organic matter can turn the treated soils unfavorable at times even worser than the unstabilized ones.

Topics & Concepts

LimePozzolanExpansive clayCompactionSoil waterSoil stabilizationCuring (chemistry)Fly ashMoistureCementSulfateOrganic matterShrinkageWater contentMaterials sciencePozzolanic reactionEnvironmental scienceChemical engineeringChemistryGeotechnical engineeringSoil scienceGeologyComposite materialMetallurgyOrganic chemistryPortland cementEngineeringConcrete and Cement Materials ResearchGrouting, Rheology, and Soil MechanicsGeotechnical Engineering and Soil Stabilization
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