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Early reactivity of sodium silicate-activated slag pastes and its impact on rheological properties

Palacios, M. / Gismera, S. / Alonso, M.M. / d’Espinose de Lacaillerie, J.B. / Lothenbach, B. / Favier, A. / Brumaud, C. / Puertas, F.

Abstract The fast loss of fluidity of sodium silicate-activated slag (SS-AAS) systems have been widely studied in the literature. In this study, the rheology of these cements has been correlated with the evolution of the reaction products formed over time. For this purpose, a combination of experimental characterization techniques, to study the pore solution composition and microstructure of SS-AAS pastes and thermodynamic calculations have been applied. The initial precipitation of ill-defined N-A-S-H and C-N-A-S-H producta leads to a fast increase of the storage modulus after 40 min of reaction. These products are formed from the reaction of the Na⁺ ions and silicate ions of the activator with the Ca²⁺ and aluminate species dissolved from the slag. However, when a shear is applied, the structure breaks down and fluidity is recovered, that infers that the attractive forces between the particles are low at the early stages of hydration.

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Early reactivity of sodium silicate-activated slag pastes and its impact on rheological properties

Palacios, M. / Gismera, S. / Alonso, M.M. / d’Espinose de Lacaillerie, J.B. / Lothenbach, B. / Favier, A. / Brumaud, C. / Puertas, F.

Abstract The fast loss of fluidity of sodium silicate-activated slag (SS-AAS) systems have been widely studied in the literature. In this study, the rheology of these cements has been correlated with the evolution of the reaction products formed over time. For this purpose, a combination of experimental characterization techniques, to study the pore solution composition and microstructure of SS-AAS pastes and thermodynamic calculations have been applied. The initial precipitation of ill-defined N-A-S-H and C-N-A-S-H producta leads to a fast increase of the storage modulus after 40 min of reaction. These products are formed from the reaction of the Na⁺ ions and silicate ions of the activator with the Ca²⁺ and aluminate species dissolved from the slag. However, when a shear is applied, the structure breaks down and fluidity is recovered, that infers that the attractive forces between the particles are low at the early stages of hydration.

Early reactivity of sodium silicate-activated slag pastes and its impact on rheological properties

Palacios, M. / Gismera, S. / Alonso, M.M. / d’Espinose de Lacaillerie, J.B. / Lothenbach, B. / Favier, A. / Brumaud, C. / Puertas, F.

Abstract The fast loss of fluidity of sodium silicate-activated slag (SS-AAS) systems have been widely studied in the literature. In this study, the rheology of these cements has been correlated with the evolution of the reaction products formed over time. For this purpose, a combination of experimental characterization techniques, to study the pore solution composition and microstructure of SS-AAS pastes and thermodynamic calculations have been applied. The initial precipitation of ill-defined N-A-S-H and C-N-A-S-H producta leads to a fast increase of the storage modulus after 40 min of reaction. These products are formed from the reaction of the Na⁺ ions and silicate ions of the activator with the Ca²⁺ and aluminate species dissolved from the slag. However, when a shear is applied, the structure breaks down and fluidity is recovered, that infers that the attractive forces between the particles are low at the early stages of hydration.

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Title:

Early reactivity of sodium silicate-activated slag pastes and its impact on rheological properties

Contributors:

Palacios, M. (author) / Gismera, S. (author) / Alonso, M.M. (author) / d’Espinose de Lacaillerie, J.B. (author) / Lothenbach, B. (author) / Favier, A. (author) / Brumaud, C. (author) / Puertas, F. (author)

Published in:

Cement and Concrete Research ; 140

Publication date:

2020-11-09

ISSN:

DOI:

https://doi.org/10.1016/j.cemconres.2020.106302

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Alkali-activated slag cement , Sodium silicate activator , Rheology , Reaction , Thermodynamic calculations

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