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Geotechnical characterization of sustainable geopolymer improved soil

Alaa H. J. Al-Rkaby, Noor Aamer Odeh, Sabih Ahmed, Haider Odah

2022Journal of the Mechanical Behavior of Materials20 citationsDOIOpen Access PDF

Abstract

Abstract Geopolymer (GP) has recently emerged as a novel and environmental friendly alternative to conventional soil stabilization products like lime and Ordinary Portland Cement (OPC), which adversely affect the environment. This article emphasizes GPs produced from high calcium class C fly ash (CFA) and an alkali activator comprising sodium hydroxide and sodium silicate solution for sand stabilization. The experimental program includes a series of unconfined compressive strength (UCS), flexural strength, tensile strength, and microstructural analyses using scanning electron microscopy. Results revealed that UCS, flexural strength, and tensile strength of GP-treated soil were in the range of 2–10, 0.5–2.0, and 0.4–1.2 MPa, respectively (depending on the ratio of fly ash and activator). These strengths were even higher than those of cement-stabilized soil. The microstructural analysis revealed that the formation of dense calcium–sodium alumina–silicate hydrated gel (C, N–A–S–H) is the reason for strength improvement. According to the findings of this study, using a CFA-GP binder for soil improvement is a viable alternative to OPC in geotechnical applications.

Topics & Concepts

GeopolymerCompressive strengthFlexural strengthUltimate tensile strengthSodium silicateMaterials sciencePortland cementLimeFly ashCementCalcium silicateSoil stabilizationSodium hydroxideComposite materialGeotechnical engineeringSoil waterMineralogyMetallurgyEnvironmental scienceGeologyChemical engineeringSoil scienceEngineeringConcrete and Cement Materials ResearchRecycling and utilization of industrial and municipal waste in materials productionInnovative concrete reinforcement materials
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