The utilisation of near-neutral salts as activators to produce alkali-activated slag cements offers several technical advantages, including reduced alkalinity of the binders, minimising the risk associated with handling of highly alkaline materials, and better workability of the fresh paste compared to that of sodium silicate-activated slag cements. Despite these evident advantages, the delayed setting and slow early-age mechanical strength development of these cements have limited their adoption and commercialisation. Recent studies have demonstrated that these limitations can be overcome by selecting slags with chemistry which is more prone to react with near-neutral salts, or by adding mineral additives. A brief overview of the most rece...
This paper presents the study of alkali-activated slags where sodium carbonate acts as a primary act...
In this study, Na2CO3-activated slag cements were produced from four different blast furnace slags, ...
This paper discusses the design of hybrid alkali-activated binders at ambient temperature, specifica...
The utilisation of near-neutral salts as activators to produce alkali-activated slag cements offers ...
This study established the fundamental relationships between slag chemistry and reaction kinetics of...
An alkali-activated slag cement produced with a blend of sodium carbonate/sodium silicate activator ...
In this study, the effect of sodium sulfate content and curing duration (from fresh paste up to 18 m...
Alkali-activated slag (AAS) materials are acknowledged as environmentally friendly due to the reduce...
The reaction kinetics of four commercial ground granulated blast furnace slags with varying percenta...
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...
Although the use of slag has many benefits, its low hydration at early stages causes the strength to...
The effect of limestone replacement in the reaction and phase assemblage evolution of two sodium sul...
Ground granulated blast furnace slag is a finely ground, rapidly chilled aluminosilicate melt materi...
Multi-technique characterisation of sodium carbonate-activated blast furnace slag binders was conduc...
This paper presents the study of alkali-activated slags where sodium carbonate acts as a primary act...
In this study, Na2CO3-activated slag cements were produced from four different blast furnace slags, ...
This paper discusses the design of hybrid alkali-activated binders at ambient temperature, specifica...
The utilisation of near-neutral salts as activators to produce alkali-activated slag cements offers ...
This study established the fundamental relationships between slag chemistry and reaction kinetics of...
An alkali-activated slag cement produced with a blend of sodium carbonate/sodium silicate activator ...
In this study, the effect of sodium sulfate content and curing duration (from fresh paste up to 18 m...
Alkali-activated slag (AAS) materials are acknowledged as environmentally friendly due to the reduce...
The reaction kinetics of four commercial ground granulated blast furnace slags with varying percenta...
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...
Although the use of slag has many benefits, its low hydration at early stages causes the strength to...
The effect of limestone replacement in the reaction and phase assemblage evolution of two sodium sul...
Ground granulated blast furnace slag is a finely ground, rapidly chilled aluminosilicate melt materi...
Multi-technique characterisation of sodium carbonate-activated blast furnace slag binders was conduc...
This paper presents the study of alkali-activated slags where sodium carbonate acts as a primary act...
In this study, Na2CO3-activated slag cements were produced from four different blast furnace slags, ...
This paper discusses the design of hybrid alkali-activated binders at ambient temperature, specifica...