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Controlling the reaction kinetics of sodium carbonate-activated slag cements using calcined layered double hydroxides
https://orcid.org/0000-0003-3372-8922
Abstract In this study, Na2CO3-activated slag cements were produced from four different blast furnace slags, each blended with a calcined layered double hydroxide (CLDH) derived from thermally treated hydrotalcite. The aim was to expedite the reaction kinetics of these cements, which would otherwise react and harden very slowly. The inclusion of CLDH in these Na2CO3-activated cements accelerates the reaction, and promotes hardening within 24h. The MgO content of the slag also defines the reaction kinetics, associated with the formation of hydrotalcite-type LDH as a reaction product. The effectiveness of the CLDH is associated with removal of dissolved CO3 2− from the fresh cement, yielding a significant rise in the pH, and also potential seeding effects. The key factor controlling the reaction kinetics of Na2CO3-activated slag cements is the activator functional group, and therefore these cements can be designed to react more rapidly by controlling the slag chemistry and/or including reactive additives.
Controlling the reaction kinetics of sodium carbonate-activated slag cements using calcined layered double hydroxides
https://orcid.org/0000-0003-3372-8922
Abstract In this study, Na2CO3-activated slag cements were produced from four different blast furnace slags, each blended with a calcined layered double hydroxide (CLDH) derived from thermally treated hydrotalcite. The aim was to expedite the reaction kinetics of these cements, which would otherwise react and harden very slowly. The inclusion of CLDH in these Na2CO3-activated cements accelerates the reaction, and promotes hardening within 24h. The MgO content of the slag also defines the reaction kinetics, associated with the formation of hydrotalcite-type LDH as a reaction product. The effectiveness of the CLDH is associated with removal of dissolved CO3 2− from the fresh cement, yielding a significant rise in the pH, and also potential seeding effects. The key factor controlling the reaction kinetics of Na2CO3-activated slag cements is the activator functional group, and therefore these cements can be designed to react more rapidly by controlling the slag chemistry and/or including reactive additives.
Controlling the reaction kinetics of sodium carbonate-activated slag cements using calcined layered double hydroxides
https://orcid.org/0000-0003-3372-8922
Abstract In this study, Na2CO3-activated slag cements were produced from four different blast furnace slags, each blended with a calcined layered double hydroxide (CLDH) derived from thermally treated hydrotalcite. The aim was to expedite the reaction kinetics of these cements, which would otherwise react and harden very slowly. The inclusion of CLDH in these Na2CO3-activated cements accelerates the reaction, and promotes hardening within 24h. The MgO content of the slag also defines the reaction kinetics, associated with the formation of hydrotalcite-type LDH as a reaction product. The effectiveness of the CLDH is associated with removal of dissolved CO3 2− from the fresh cement, yielding a significant rise in the pH, and also potential seeding effects. The key factor controlling the reaction kinetics of Na2CO3-activated slag cements is the activator functional group, and therefore these cements can be designed to react more rapidly by controlling the slag chemistry and/or including reactive additives.
Controlling the reaction kinetics of sodium carbonate-activated slag cements using calcined layered double hydroxides
Ke, Xinyuan (Autor:in) / Bernal, Susan A. (Autor:in) / Provis, John L. (Autor:in)
Cement and Concrete Research ; 81 ; 24-37
27.11.2015
14 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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