Phase diagrams for alkali-activated slag (AAS) binders are simulated at (metastable) thermodynamic equilibrium, spanning the relevant compositional envelopes for these materials. The phase diagrams are generally consistent with experimental observations in the literature, dominated by calcium (alkali) aluminosilicate hydrate (C-(N-)A-S-H) gels and Mg-Al layered double hydroxides. Relationships between the stabilities of the predicted solid phase assemblages, pore solution compositions, and the bulk chemical composition are identified, yielding an improved understanding of AAS binder chemistry. Strätlingite is predicted at low to intermediate Si concentrations and at high Al content, while zeolites (and thus most likely also disordered alkal...
As mentioned in Chap. 2, the development and assessment of alkali-activated binders based on calcium...
The chemical compositions of aqueous phases in alkali-activated slag paste and Portland cement paste...
This paper investigates the atomic structure and phase assemblages in new sodium-stabilized magnesiu...
Phase diagrams for alkali-activated slag (AAS) binders are simulated at (metastable) thermodynamic e...
This paper presents a thermodynamic modelling analysis of alkali-activated slag-based cements, which...
Carbonation of cementitious materials induced by their interaction with atmospheric CO2 is one of th...
Most concrete is produced using calcium (alkali) aluminosilicate hydrate (C-(N-)A-S-H)-based cement....
This study established the fundamental relationships between slag chemistry and reaction kinetics of...
The main reaction product in Ca-rich alkali-activated cements and hybrid Portland cement (PC)-based ...
Formation of polymeric cementitious binders via alkaline activation of aluminosilicates has gained s...
This paper discusses the design of hybrid alkali-activated binders at ambient temperature, specifica...
Stoichiometrically-controlled alkali-activated pastes containing calcium-(sodium) aluminosilicate hy...
In this study, the effect of sodium sulfate content and curing duration (from fresh paste up to 18 m...
Structural models for the primary strength and durability-giving reaction product in modern cements,...
© Copyright 2016 Japan Concrete Institute. This paper presents a quantitative analysis of hydrated p...
As mentioned in Chap. 2, the development and assessment of alkali-activated binders based on calcium...
The chemical compositions of aqueous phases in alkali-activated slag paste and Portland cement paste...
This paper investigates the atomic structure and phase assemblages in new sodium-stabilized magnesiu...
Phase diagrams for alkali-activated slag (AAS) binders are simulated at (metastable) thermodynamic e...
This paper presents a thermodynamic modelling analysis of alkali-activated slag-based cements, which...
Carbonation of cementitious materials induced by their interaction with atmospheric CO2 is one of th...
Most concrete is produced using calcium (alkali) aluminosilicate hydrate (C-(N-)A-S-H)-based cement....
This study established the fundamental relationships between slag chemistry and reaction kinetics of...
The main reaction product in Ca-rich alkali-activated cements and hybrid Portland cement (PC)-based ...
Formation of polymeric cementitious binders via alkaline activation of aluminosilicates has gained s...
This paper discusses the design of hybrid alkali-activated binders at ambient temperature, specifica...
Stoichiometrically-controlled alkali-activated pastes containing calcium-(sodium) aluminosilicate hy...
In this study, the effect of sodium sulfate content and curing duration (from fresh paste up to 18 m...
Structural models for the primary strength and durability-giving reaction product in modern cements,...
© Copyright 2016 Japan Concrete Institute. This paper presents a quantitative analysis of hydrated p...
As mentioned in Chap. 2, the development and assessment of alkali-activated binders based on calcium...
The chemical compositions of aqueous phases in alkali-activated slag paste and Portland cement paste...
This paper investigates the atomic structure and phase assemblages in new sodium-stabilized magnesiu...