4.7 Article

From physics to chemistry of fresh blended cements

Journal

CEMENT AND CONCRETE RESEARCH
Volume 172, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.cemconres.2023.107243

Keywords

Supplementary cementitious materials; Rheology; Early hydration; Chemical admixtures; Particle packing

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Tomorrow's mineral binders need to incorporate an increasing proportion of mineral powders other than Portland clinker, impacting various industrial properties including fresh state properties. This paper discusses the physical, physico-chemical, and chemical changes that will result from this evolution in mix design. Volume-driven effects control solid fraction, packing properties, and particle morphology, while surface-driven effects modify interparticle forces and the degree of dispersion, affecting the rheology. Early hydration kinetics influence hydrate nucleation and growth, altering surface area, admixture consumption, and cohesion forces. The paper explores these features and their interactions to provide insight into the fresh properties of blended cements.
Tomorrow's mineral binders are called on to integrate a growing proportion of mineral powders other than Portland clinker. This impacts most properties of industrial interest including fresh state properties, the focus of this paper.We discuss the physical, physico-chemical and chemical changes that such an evolution in mix design is ex-pected to induce.-Volume-driven effects (physics) control solid fraction, packing properties and strongly relate to particle shape, particle polydispersity and early hydrates morphology.-Surface-driven effects (physical chemistry) drive interparticle forces and admixtures adsorption, profoundly impacting the rheology by modifying the degree of dispersion.-Early hydration kinetics (chemistry) leads to hydrate nucleation and growth, which impact the above by modifying the specific surface area, admixture consumption and cohesion forces.We discuss the above features, their independence and their interplay and extrapolate the critical research questions and needs associated to a full understanding of the fresh properties of blended cements.

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