This paper investigates the effects of curing conditions on a high-strength geopolymer material synthesized by activating different combinations of Class F fly ash (FA), ground-granulated blast-furnace (slag), and ultrafine fly ash (UFFA) with a unified mixture of D-grade sodium silicate (Na 2 SiO 3 ) and 12-M sodium hydroxide (NaOH) solutions. The effect of ambient air and water curing on the strength properties, cumulative porosity, and microstructure of geopolymer mortar samples was evaluated at room temperature. Subsequently, the effects of two different sand-binder ratios, the amount of FA replacement with UFFA, and slag on the short-term mechanical properties and workability of geopolymer mixtures is also discussed. The results show t...
Silicate cement as a conventional soil curing agent has problems of high energy consumption and high...
Strength and durability characteristics of geopolymers produced using three precursors, consisting o...
A study has been carried out to apply fly ash as a high strength, water-resistant precast constructi...
Geopolymer is an attractive sustainable binder as compared to Ordinary Portland Cement (OPC) in conc...
© 2016 Elsevier Ltd. Geopolymer is an environment-friendly binder, which has gained significant inte...
This paper presents the effects of ultrafine fly ash on setting, strength and porosity of geopolymer...
Compressive strength results of class-f fly ash geopolymer (no aggregates or admixtures) cured in wa...
Geopolymer is a class of aluminosilicate binding materials synthesized by thermal activation of soli...
The main contribution of this paper relates to the development of a systematic study involving a set...
There is no standardized procedure for producing geopolymers; therefore, many researchers develop th...
It is known that transport properties of porous materials were important in terms of its durability ...
Compressive strength development of class F fly ash geopolymer activated by sodium hydroxide wa...
Mineral geopolymer binders can be an attractive and more sustainable alternative to traditional Port...
Iron rich brown fly ash has been segregated into (a) coarse, and (b) fine size fractions using air c...
The development of geopolymers has allowed the flash as the substitution of cement in the applicatio...
Silicate cement as a conventional soil curing agent has problems of high energy consumption and high...
Strength and durability characteristics of geopolymers produced using three precursors, consisting o...
A study has been carried out to apply fly ash as a high strength, water-resistant precast constructi...
Geopolymer is an attractive sustainable binder as compared to Ordinary Portland Cement (OPC) in conc...
© 2016 Elsevier Ltd. Geopolymer is an environment-friendly binder, which has gained significant inte...
This paper presents the effects of ultrafine fly ash on setting, strength and porosity of geopolymer...
Compressive strength results of class-f fly ash geopolymer (no aggregates or admixtures) cured in wa...
Geopolymer is a class of aluminosilicate binding materials synthesized by thermal activation of soli...
The main contribution of this paper relates to the development of a systematic study involving a set...
There is no standardized procedure for producing geopolymers; therefore, many researchers develop th...
It is known that transport properties of porous materials were important in terms of its durability ...
Compressive strength development of class F fly ash geopolymer activated by sodium hydroxide wa...
Mineral geopolymer binders can be an attractive and more sustainable alternative to traditional Port...
Iron rich brown fly ash has been segregated into (a) coarse, and (b) fine size fractions using air c...
The development of geopolymers has allowed the flash as the substitution of cement in the applicatio...
Silicate cement as a conventional soil curing agent has problems of high energy consumption and high...
Strength and durability characteristics of geopolymers produced using three precursors, consisting o...
A study has been carried out to apply fly ash as a high strength, water-resistant precast constructi...