Influence of activator type on reaction kinetics, setting time, and compressive strength of alkali-activated mineral wools

Alkali activation is a promising utilisation route for mineral wool wastes, due to suitable chemical composition, high reactivity, and surface area. One key factor in the development of alkali-activated binders is the selection of the suitable alkali activator. Here, the effect of sodium hydroxide,...

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Bibliographic Details
Published in:Journal of thermal analysis and calorimetry 2021-05, Vol.144 (4), p.1129-1138
Main Authors: Yliniemi, J., Walkley, B., Provis, J. L., Kinnunen, P., Illikainen, M.
Format: Article
Language:English
Subjects:
Analytical Chemistry
Carbonates
Caustic soda
Chemical composition
Chemical reaction, Rate of
Chemistry
Chemistry and Materials Science
Compressive strength
Glass wool
Hydroxides
Inorganic Chemistry
Measurement Science and Instrumentation
Mineral wool
Physical Chemistry
Polymer Sciences
Reaction kinetics
Setting (hardening)
Sodium
Sodium aluminate
Sodium carbonate
Sodium hydroxide
Sodium silicates
Stone
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Summary:Alkali activation is a promising utilisation route for mineral wool wastes, due to suitable chemical composition, high reactivity, and surface area. One key factor in the development of alkali-activated binders is the selection of the suitable alkali activator. Here, the effect of sodium hydroxide, sodium silicate, sodium aluminate, and sodium carbonate solution on the alkali-activation kinetics of two main types of mineral wools, stone wool and glass wool, is investigated. Setting time and compressive strength development results are presented, which are explained and discussed in the context of isothermal calorimeter data obtained at temperature of 40 °C. Sodium hydroxide and sodium silicate solutions provided fast reaction with both mineral wools, evidenced by high heat release, high early strength, and fast setting. The reaction with sodium aluminate solution took several days to initiate, but it produced high compressive strength after 28 days of curing with both mineral wools. Glass wool reacted and hardened rapidly with sodium carbonate solution, but stone wool reacted slowly with sodium carbonate and exhibited a low extent of reaction, likely due to lower extent of reaction of stone wool under less alkaline conditions. These results show that mineral wool alkali activation kinetics and binder gel formation are controlled by the activator type and highlight the importance of choosing the most appropriate activator for each desired application.
ISSN:1388-6150
1588-2926
DOI:10.1007/s10973-020-09651-6