Compressive strength results of class-f fly ash geopolymer (no aggregates or admixtures) cured in water are reported. Na2SiO3 was mixed with NaOH at mass ratio of 2.5: 1, while the mass ratio of fly-ash to alkaline activator is kept at 3:1 for the geopolymer mix design. The effects of varying different molarity of NaOH and mixing time on fly ash geopolymer’s compressive strength was examined. Compressive strength of water-cured geopolymer samples was found to increase with molarity of NaOH and increased mixing time did not significantly impact the overall strength of geopolymer. Water curing has also been attested as the more inefficient curing method for geopolymers when compared to ambient curing in terms of 28th-day compressive strength....
AbstractThe demand of concrete is increasing day by day for satisfying the need of development of in...
The main contribution of this paper relates to the development of a systematic study involving a set...
This study focused on the effect of fly ash/alkaline activator ratio and Na2SiO3/NaOH ratio in clas...
This paper investigates the effects of curing conditions on a high-strength geopolymer material synt...
There is no standardized procedure for producing geopolymers; therefore, many researchers develop th...
Geopolymer concrete is a new material made by activating the raw materials which contain many elemen...
In this paper, a preliminary study is performed on the application of Class-C fly ash based geopolym...
Compressive strength development of class F fly ash geopolymer activated by sodium hydroxide wa...
To study effects of several factors on the properties of fly ash based geopolymer concrete on the co...
This paper presents the effect of increasing the molarity concentrations and curing time for strengt...
The cement industry accounts for about 7% of all CO2 emissions caused by humans. Therefore, it is ne...
There is no standardized procedure for producing geopolymers; therefore, many researchers develop th...
Geopolymer technology have been developed and explored especially in the construction material field...
This paper presents the effect of increasing the molarity concentrations and curing time for strengt...
Fly ash sourced from Sarawak, Borneo was alkali-activated by a combination of alkali hydroxides (i.e...
AbstractThe demand of concrete is increasing day by day for satisfying the need of development of in...
The main contribution of this paper relates to the development of a systematic study involving a set...
This study focused on the effect of fly ash/alkaline activator ratio and Na2SiO3/NaOH ratio in clas...
This paper investigates the effects of curing conditions on a high-strength geopolymer material synt...
There is no standardized procedure for producing geopolymers; therefore, many researchers develop th...
Geopolymer concrete is a new material made by activating the raw materials which contain many elemen...
In this paper, a preliminary study is performed on the application of Class-C fly ash based geopolym...
Compressive strength development of class F fly ash geopolymer activated by sodium hydroxide wa...
To study effects of several factors on the properties of fly ash based geopolymer concrete on the co...
This paper presents the effect of increasing the molarity concentrations and curing time for strengt...
The cement industry accounts for about 7% of all CO2 emissions caused by humans. Therefore, it is ne...
There is no standardized procedure for producing geopolymers; therefore, many researchers develop th...
Geopolymer technology have been developed and explored especially in the construction material field...
This paper presents the effect of increasing the molarity concentrations and curing time for strengt...
Fly ash sourced from Sarawak, Borneo was alkali-activated by a combination of alkali hydroxides (i.e...
AbstractThe demand of concrete is increasing day by day for satisfying the need of development of in...
The main contribution of this paper relates to the development of a systematic study involving a set...
This study focused on the effect of fly ash/alkaline activator ratio and Na2SiO3/NaOH ratio in clas...