The main contribution of this paper relates to the development of a systematic study involving a set of parameters which could potentially have an impact on geopolymer properties: curing temperature, type of activating solution, alkali metal in solution, incorporation of slag (Ca source) and type of slag used. The microstructures, degrees of reaction, porosities and compressive strengths of geopolymers have been evaluated. Geopolymers prepared with soluble silicate presented a more compacted and closed structure, a larger amount of gel, lower porosity and greater compressive strength than those prepared with hydroxides. On the other hand, Na-geopolymers were more porous but more resistant than K-geopolymers. Although there is an inverse rel...
Fly ash sourced from Sarawak, Borneo was alkali-activated by a combination of alkali hydroxides (i.e...
Strength and durability characteristics of geopolymers produced using three precursors, consisting o...
Compressive strength of six types of geopolymer pastes made from different fly ash sources were stud...
This paper investigates the effects of curing conditions on a high-strength geopolymer material synt...
This study deals with the mechanical and microstructural characterization of geopolymers synthesi...
The main contribution of this paper relates to the development of a systematic study involving a set...
Mineral geopolymer binders can be an attractive and more sustainable alternative to traditional Port...
Slag was utilized as an additive for fly ash-based geopolymers in this study. It was found that the ...
This study evaluates the influence of the elemental distribution in the fly ash particles and their ...
AbstractGeopolymer is a new class of inorganic polymer synthesized by activation of an aluminosilica...
Geopolymer is a class of aluminosilicate binding materials synthesized by thermal activation of soli...
© 2016 Elsevier Ltd. Geopolymer is an environment-friendly binder, which has gained significant inte...
Compressive strength results of class-f fly ash geopolymer (no aggregates or admixtures) cured in wa...
This study focused on the effect of fly ash/alkaline activator ratio and Na2SiO3/NaOH ratio in clas...
Impact of changing temperatures of curing (27, 60 and 90 °C) and types of alkaline activator solutio...
Fly ash sourced from Sarawak, Borneo was alkali-activated by a combination of alkali hydroxides (i.e...
Strength and durability characteristics of geopolymers produced using three precursors, consisting o...
Compressive strength of six types of geopolymer pastes made from different fly ash sources were stud...
This paper investigates the effects of curing conditions on a high-strength geopolymer material synt...
This study deals with the mechanical and microstructural characterization of geopolymers synthesi...
The main contribution of this paper relates to the development of a systematic study involving a set...
Mineral geopolymer binders can be an attractive and more sustainable alternative to traditional Port...
Slag was utilized as an additive for fly ash-based geopolymers in this study. It was found that the ...
This study evaluates the influence of the elemental distribution in the fly ash particles and their ...
AbstractGeopolymer is a new class of inorganic polymer synthesized by activation of an aluminosilica...
Geopolymer is a class of aluminosilicate binding materials synthesized by thermal activation of soli...
© 2016 Elsevier Ltd. Geopolymer is an environment-friendly binder, which has gained significant inte...
Compressive strength results of class-f fly ash geopolymer (no aggregates or admixtures) cured in wa...
This study focused on the effect of fly ash/alkaline activator ratio and Na2SiO3/NaOH ratio in clas...
Impact of changing temperatures of curing (27, 60 and 90 °C) and types of alkaline activator solutio...
Fly ash sourced from Sarawak, Borneo was alkali-activated by a combination of alkali hydroxides (i.e...
Strength and durability characteristics of geopolymers produced using three precursors, consisting o...
Compressive strength of six types of geopolymer pastes made from different fly ash sources were stud...