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Communication Dans Un Congrès Année : 2023

Paste Rheology and Surface Charge of Calcined Kaolinite

Résumé

Partial substitution of the clinker in the cement by a supplementary cementitious material (SCM) is one of the main solutions to reduce the carbon footprint. Calcined kaolinite is a good candidate due to its availability and relatively high reactivity compared to other SCMs. The main issue with these calcined clay types of cements is the high-water demand at low clinker factors, a problem which remains not well understood. In this proceeding, we will show the role played by electrostatic interactions in the paste stiffening using as a model system pure calcined kaolinite paste prepared at various pH as well as salt types and concentrations. The study combines dynamic rheometry measurements in strain-sweep modes, surface charge characterization using potentiometric titration and electrophoretic measurements as well as calculations of inter-particle interactions using Monte-Carlo (MC) simulations in the framework of the primitive model. The calcined kaolinite is found to possess a negative permanent charge, presumably due to the Si(IV)/Al(III) substitution, and a titratable charge (as due to ionization of silanol and aluminol surface groups) with a point of zero proton charge at pH 4.65. In conditions relevant for cement paste, the calcined clay bear a strong negative charge ~ 300 mC/m2. The rheological measurements reveal that the paste stiffening is highly dependent on the pH, salt concentration and type as expected for systems controlled by electrostatic interactions. The stiffness increases with the salt concentration at natural pH and is the largest in solutions buffered with Ca(OH)2, that is at high Ca2+ concentrations and pH where the negative charge of the calcined clay is the strongest. The MC simulations of the inter-particle interactions are found to qualitatively explain the observed variation in the paste stiffness.
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hal-04229925 , version 1 (05-10-2023)

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Paternité - Pas de modifications

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Yannick Demeusy, sandrine Gauffinet, Christophe Labbez. Paste Rheology and Surface Charge of Calcined Kaolinite. 16th International Congress on the Chemistry of Cement 2023 (ICCC 2023), Sep 2023, Bangkok, Thailand. pp.77-80. ⟨hal-04229925⟩
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