Relation between activator ratio, hydration products and mechanical properties of alkali-activated slag

The use of cement substitute, such as alkali-activated slag, is of great interest in the field of earth-based construction materials to preserve their environmental benefit. Nonetheless, the cationic activity of clayey particles of earth-based materials induces new issues by affecting the alkaline conditions in which slag is activated. This work aims to present how alkaline conditions modify the nature and the amount of hydrates formed, the kinetics for reaction and the resulting mechanical properties. A minimum of 5 wt% of activator with respect to the slag was needed to trigger consolidation of the samples within the first 24 h, while an activator content of 15% led to an excess of sodium, especially remarkable at early age. Besides, hydration kinetics were followed in situ during the first 3 days by infrared spectroscopy. The formation of portlandite and hydrotalcite-like hydrates were only observable from 10% of activator and the presence of hydrotalcite is correlated with an increase in mechanical properties. Finally, these results are of interest for the formulation of earth-based materials by predicting hydrated phases formed during slag activation depending on alkaline conditions. (C) 2020 Elsevier Ltd. All rights reserved.

Automated summary

This study explores the use of cement substitutes like alkali-activated slag in earth-based construction materials to maintain environmental benefits. It found that the cationic activity of clayey particles may pose new issues, and the activator content under alkaline conditions can affect the formation of hydrates and mechanical properties of the materials.