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Thermo-Mechano-Chemo Dynamics of Clay’s Reactivity and its Correlation with Limestone Calcined Clay Cement (LC<sup>3</sup>) Performance

Miral Fatima, Khuram Rashid, Nosheen Blouch

2024Journal of Advanced Concrete Technology10 citationsDOIOpen Access PDF

Abstract

This study aimed to enhance calcined clay reactivity via mechanical or chemical treatments. Properties were analyzed using XRF, TGA, and XRD; reactivity was assessed with modified Chappelle and R3-bound water tests. XRD patterns for thermally (Th) and thermo-mechanically (ThM) treated clays were similar. Zeolite formation in thermo-chemically (ThC) treated clay was observed and confirmed by TGA with significant mass loss below 400°C. The reactivity of calcined clay exceeded that of untreated clay, in the order Th > ThM > ThC, as confirmed by tests. Subsequently, LC3 mortar was formulated using these activated clays. Assessments included heat of hydration and compressive strength over 90 days, along with XRD and TGA characterizations. The findings demonstrated that the trends in heat of hydration and compressive strength paralleled those observed in reactivity, with LC3-Th > LC3-ThM > LC3-ThC. Although the cement mortar had higher compressive strength than LC3 at 7 days, LC3 showed greater strength after 28 days. A correlation matrix and heat map were also created to analyze the relationship between reactivity and strength. Normalized values confirmed the findings, showing a strong correlation between the R3-bound water value, heat of hydration, and strength up to 90 days.

Topics & Concepts

CalcinationCementMaterials scienceReactivity (psychology)Chemical engineeringMineralogyComposite materialChemistryOrganic chemistryEngineeringMedicineCatalysisAlternative medicinePathologyConcrete and Cement Materials ResearchSoil and Unsaturated FlowClay minerals and soil interactions
Thermo-Mechano-Chemo Dynamics of Clay’s Reactivity and its Correlation with Limestone Calcined Clay Cement (LC<sup>3</sup>) Performance | Litcius