This paper presents the effect of increasing the molarity concentrations and curing time for strength and durability of flyash based geopolymer mortars activated using combined sodium silicate and sodium hydroxide solutions. Keeping NaOH concentration as 8M, 10M and curing time as 24hrs, 48hrs totally nine mixes were prepared. Compressive strength, Split tensile strength and Rapid Chloride Penetration tests were conducted on each of the nine mixes. Results of the experimental study showed that there was an increase in compressive strength and split tensile strength with increase in NaOH concentration and curing time. Compressive strength up to 52.28 MPa was obtained with curing at 75oC for 10 molarity geopolymer mortar
Compressive strength development of class F fly ash geopolymer activated by sodium hydroxide wa...
<div><p>Abstract The effect of alkali concentration and curing temperature regime on fly ash-based g...
Abstract: In this article, an investigation is reported on development of strength in South African ...
This paper presents the effect of increasing the molarity concentrations and curing time for strengt...
This paper presents the effect of increasing the molarity concentrations and curing time for strengt...
Compressive strength results of class-f fly ash geopolymer (no aggregates or admixtures) cured in wa...
The cement industry accounts for about 7% of all CO2 emissions caused by humans. Therefore, it is ne...
In the current study, effect of SiO2/Na2O ratio in Sodium silicate (Na2SiO3) solution, Na2SiO3/NaOH ...
This paper presents the solution molarity dependent microstructures and mechanical properties of mul...
Geopolymer concrete is a new material made by activating the raw materials which contain many elemen...
The paper presents the results of research of high-strength geopolymer mortars, prepared from two ty...
This study aims to provide the experimental data on the sulphate and acid performance of geopolymer ...
Impact of changing temperatures of curing (27, 60 and 90 °C) and types of alkaline activator solutio...
Geopolymer is an aluminosilicate compound produced as a result of inorganic polymerization. In the p...
This paper investigates the effects of curing conditions on a high-strength geopolymer material synt...
Compressive strength development of class F fly ash geopolymer activated by sodium hydroxide wa...
<div><p>Abstract The effect of alkali concentration and curing temperature regime on fly ash-based g...
Abstract: In this article, an investigation is reported on development of strength in South African ...
This paper presents the effect of increasing the molarity concentrations and curing time for strengt...
This paper presents the effect of increasing the molarity concentrations and curing time for strengt...
Compressive strength results of class-f fly ash geopolymer (no aggregates or admixtures) cured in wa...
The cement industry accounts for about 7% of all CO2 emissions caused by humans. Therefore, it is ne...
In the current study, effect of SiO2/Na2O ratio in Sodium silicate (Na2SiO3) solution, Na2SiO3/NaOH ...
This paper presents the solution molarity dependent microstructures and mechanical properties of mul...
Geopolymer concrete is a new material made by activating the raw materials which contain many elemen...
The paper presents the results of research of high-strength geopolymer mortars, prepared from two ty...
This study aims to provide the experimental data on the sulphate and acid performance of geopolymer ...
Impact of changing temperatures of curing (27, 60 and 90 °C) and types of alkaline activator solutio...
Geopolymer is an aluminosilicate compound produced as a result of inorganic polymerization. In the p...
This paper investigates the effects of curing conditions on a high-strength geopolymer material synt...
Compressive strength development of class F fly ash geopolymer activated by sodium hydroxide wa...
<div><p>Abstract The effect of alkali concentration and curing temperature regime on fly ash-based g...
Abstract: In this article, an investigation is reported on development of strength in South African ...