The influence of sulfate addition on hydration kinetics and C-S-H morphology of C3S and C3S/C3A systems

Abstract

A comprehensive understanding of hydration kinetics, sulfate requirement and phase assemblage of Portland cement is crucial for further optimization of early-age performance, especially when part of cement is replaced by mineral additions in blended cements. Gypsum is added to PC to control the reaction of the aluminate phase. The addition of gypsum also enhances the reaction of C3S independently of the interaction with the aluminates. In this study, the influence of gypsum in C3S and C3S/C3A hydration was studied in terms of the morphology and composition evolution of the C-S-H formed. The addition of gypsum modifies morphology of the C-S-H (needle length) precipitated and increase the nucleation density. The extent of the enhancement is dependent on the specific surface area (reaction rate) of C3S. In C3S/C3A systems, no differences in C-S-H morphology were observed before and after the aluminate peak.