Add to ORKGAbstract: This paper studies the effectiveness of alkaline activation of low-calcium fly ash on the improvement of residual granitic soils to be used on rammed-earth construction. Different liquid:solid ratios, alkali concentrations and Na2O: ash ratios were tested. Effect of calcium hidroxide, sodium chloride and concrete superplasticiser is also reported. Compressive strength up to 7 days at 60ºC was determined. Results show that, in terms of mechanical strength, there is an optimum value for the activator:solids ratio and the alkali concentration, and that a decrease in the Na2O:ash ratio results in strength increase. No improvement was observed with the sodium chloride or the superplasticiser, while the calcium produced only a short ter...
Although elevated temperature curing can increase the compressive strength of alkali-activated morta...
The aim of the work reported in this paper is to compare the strength of two different alkali activa...
The development of environmentally friendly alkaline-activated materials (AAMs) holds promise, as AA...
This paper studies the effectiveness of alkaline activation of low-calcium fly ash on the improvemen...
The improvement of geotechnical properties is often achieved by the addition of traditional binders,...
AbstractOrdinary Portland cement and lime are often used as stabilising agent for weak soil improvem...
An increasing interest in the development of alternative solutions based on the use of wastes and re...
Alkaline activation of fly ash (FA) was used to improve the mechanical performance of a silty sand, ...
Generally, alkali-activated binders have received much attention in recent years due to their energy...
This paper reports the fresh properties and compressive strength of high calcium alkali-activated fl...
This study investigates the suitability of low-calcium fly ash (FA) for stabilizing expansive soil (...
This paper reports the fresh properties and compressive strength of high calcium alkali-activated fl...
In this paper the potential of introducing alkali activated fly ash to a clayey soil as stabilizing ...
In this paper the potential of introducing alkali activated fly ash to a clayey soil as stabilizing ...
Natural aggregate is a non-renewable material that takes up a large portion of a concrete mixture. R...
Although elevated temperature curing can increase the compressive strength of alkali-activated morta...
The aim of the work reported in this paper is to compare the strength of two different alkali activa...
The development of environmentally friendly alkaline-activated materials (AAMs) holds promise, as AA...
This paper studies the effectiveness of alkaline activation of low-calcium fly ash on the improvemen...
The improvement of geotechnical properties is often achieved by the addition of traditional binders,...
AbstractOrdinary Portland cement and lime are often used as stabilising agent for weak soil improvem...
An increasing interest in the development of alternative solutions based on the use of wastes and re...
Alkaline activation of fly ash (FA) was used to improve the mechanical performance of a silty sand, ...
Generally, alkali-activated binders have received much attention in recent years due to their energy...
This paper reports the fresh properties and compressive strength of high calcium alkali-activated fl...
This study investigates the suitability of low-calcium fly ash (FA) for stabilizing expansive soil (...
This paper reports the fresh properties and compressive strength of high calcium alkali-activated fl...
In this paper the potential of introducing alkali activated fly ash to a clayey soil as stabilizing ...
In this paper the potential of introducing alkali activated fly ash to a clayey soil as stabilizing ...
Natural aggregate is a non-renewable material that takes up a large portion of a concrete mixture. R...
Although elevated temperature curing can increase the compressive strength of alkali-activated morta...
The aim of the work reported in this paper is to compare the strength of two different alkali activa...
The development of environmentally friendly alkaline-activated materials (AAMs) holds promise, as AA...