Add to ORKG© 2016 Elsevier LtdThe influence of the fineness, concentration, and chemico-mineralogical composition of limestone on the workability, reaction kinetics, compressive strength, microstructure, and binder gel characteristics of sodium carbonate–based waste-activated waste slag cement pastes was investigated in this work. Alkali-activated slag cements incorporated with limestone, containing 33–100% of calcite, at a content of up to 60% with a 28-day compressive strength of 26.2–48.8 MPa were proposed. The main reaction products of hardened alkali-activated cement pastes and those incorporated with limestone are [Formula presented], CaCO3, Na2Ca(CO3)2·5H2O, and Na2CaSiO4. “Physically active” limestone does not chemically react with the binder ...
AbstractIn the present contribution, the interaction between limestone and slag is investigated by a...
The properties of a binder developed by the alkali-activation of a single waste material can improv...
The ceramic sanitary‐ware market generates large amounts of waste, both during the production proces...
© 2016 Elsevier LtdThe influence of the fineness, concentration, and chemico-mineralogical compositi...
The effect of limestone replacement in the reaction and phase assemblage evolution of two sodium sul...
The effects of limestone powder (LP) on the performance of Portland cement based composites have bee...
Concrete is the most used construction material, needing large quantities of Portland cement. Unfort...
In this article, the effects of raw materials’ composition on fresh behavior, reaction kinetics, mec...
An alkali-activated slag cement produced with a blend of sodium carbonate/sodium silicate activator ...
This study established the fundamental relationships between slag chemistry and reaction kinetics of...
This study aims to investigate the effect of limestone powder (LP) on the reaction of sodium carbona...
Alkali activated fly ash/slag (AAFS), a newly evolved type of alkali-activated cements (AACs), is he...
Alkali activated fly ash/slag (AAFS), a newly evolved type of alkali-activated cements (AACs), is he...
AbstractIn the present contribution, the interaction between limestone and slag is investigated by a...
The properties of a binder developed by the alkali-activation of a single waste material can improv...
The ceramic sanitary‐ware market generates large amounts of waste, both during the production proces...
© 2016 Elsevier LtdThe influence of the fineness, concentration, and chemico-mineralogical compositi...
The effect of limestone replacement in the reaction and phase assemblage evolution of two sodium sul...
The effects of limestone powder (LP) on the performance of Portland cement based composites have bee...
Concrete is the most used construction material, needing large quantities of Portland cement. Unfort...
In this article, the effects of raw materials’ composition on fresh behavior, reaction kinetics, mec...
An alkali-activated slag cement produced with a blend of sodium carbonate/sodium silicate activator ...
This study established the fundamental relationships between slag chemistry and reaction kinetics of...
This study aims to investigate the effect of limestone powder (LP) on the reaction of sodium carbona...
Alkali activated fly ash/slag (AAFS), a newly evolved type of alkali-activated cements (AACs), is he...
Alkali activated fly ash/slag (AAFS), a newly evolved type of alkali-activated cements (AACs), is he...
AbstractIn the present contribution, the interaction between limestone and slag is investigated by a...
The properties of a binder developed by the alkali-activation of a single waste material can improv...
The ceramic sanitary‐ware market generates large amounts of waste, both during the production proces...