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Carbonation investigation on atmospherically exposed lime-treated silty soil

Geetanjali Das, Andry Razakamanantsoa, Lucile Saussaye, Francesca Losma, Dimitri Deneele

2022Case Studies in Construction Materials21 citationsDOIOpen Access PDF

Abstract

The effect of carbonation on a one-year atmospherically exposed lime-treated soil structure is investigated. The investigation involves analyzing the chemical characteristics and pore-structure modifications of several specimens sampled up to 12 cm depth perpendicular to the surface. On comparing the analysis with untreated and lime-treated core-sampled specimens, carbonation is found to have occurred on specimens sampled up to 4.2 cm depth perpendicular to the surface. The decrease in soil pH to a value 9 or lower than that and the presence of carbonates confirmed the carbonation effect. At the pore-structure level, carbonation mechanism is found to increase macropores of diameter 20000–100000 Å, which is missing in the non-carbonated specimens and even greater than the one found at untreated soil. Such an observation confirmed the loss of cementitious compounds due to carbonation, thus, converting the mesopores developed due to lime treatment to macropores of larger pore diameter.

Topics & Concepts

CarbonationLimeMacroporeCarbonatationMineralogyCementitiousSpecific surface areaMaterials scienceSoil scienceChemistryEnvironmental scienceCementComposite materialMesoporous materialMetallurgyCatalysisBiochemistryConcrete and Cement Materials ResearchSoil and Unsaturated FlowGrouting, Rheology, and Soil Mechanics
Carbonation investigation on atmospherically exposed lime-treated silty soil | Litcius