Mathematical modeling of tricalcium silicate hydration. II. Hydration sub-models and the effect of model parameters

Based on conceptual models for the stages in the hydration of trlcalcium silicate, a mathematical model was developed. The separate resistances in the mathematical model correspond to the phenomenological stages of the conceptual model. Comparison of model output with available hydration data gave a

A kinetic model describing the hydration of C3S has been developed. The model is predicated on the assumption that the formation of a final hydrate phase initiates in transient hydrate layers which surround the anhydrous grains. This transformation results in the onset of the acceleratory period. T

Although the chemistry of cement has been under study for over 100 years, its mechanism of hydration is not yet fully understood. Various authors (i-3) have recently tried to come to grips with this basic problem, each summarizing the available data on the hydration of portland cement/tricalcium si