This research work has been carried out to tailor the development of different type of microstructure in geopolymerized fly ash building brick. During the experimental, work alkaline activator containing both soluble sodium silicates (1:1 solution) and sodium hydroxide (1:1 solution) in presence of anions has been used to improve the reactivity of fly ash. Fly ash and alkaline activator in different weight % are mixed on 100 kg scale followed by water for preparation of the wet mix. Then the wet mixture has been used in casting of brick (230X75X11mm size) by hydraulic press applying 15-20 ton of compaction pressure and then shifted for atmospheric curing at 35oC. Compressive strength, and microstructure of the bricks have been investigated....
In line with the current focus on utilizing side products of various production processes, this diss...
This study focuses on the use of fly ash (fly ash) as a key ingredient to replace ordinary Portland ...
Geopolymer is formed when a source of alumino-silicate is activated with highly concentrated alkalin...
Geopolymerization is a non-fired process of chemical reaction between silica, alumina, calcium, magn...
The purpose of this research work was to develop innovative environmental friendly building brick an...
AbstractAluminosilicate materials can be transformed into very compact binding material by the proce...
Abstract The construction industry is one of the sectors which have significant impacts on the envir...
The aim of this work is to study the influence of the type of activator on the formulation of geopol...
The cement industry accounts for about 7% of all CO2 emissions caused by humans. Therefore, it is ne...
The development of geopolymers, as an alternative to traditional cement, by alkali activation of fly...
Aluminosilicate materials can be transformed into very compact binding material by the process calle...
This paper investigates the properties of geopolymer obtained by alkali-activation of fly ash (FA), ...
This paper investigates the effects of curing conditions on a high-strength geopolymer material synt...
Geopolymer is a class of aluminosilicate binding materials synthesized by thermal activation of soli...
The utilization of fly ash in brick as partial replacement of cement is gaining immense importance t...
In line with the current focus on utilizing side products of various production processes, this diss...
This study focuses on the use of fly ash (fly ash) as a key ingredient to replace ordinary Portland ...
Geopolymer is formed when a source of alumino-silicate is activated with highly concentrated alkalin...
Geopolymerization is a non-fired process of chemical reaction between silica, alumina, calcium, magn...
The purpose of this research work was to develop innovative environmental friendly building brick an...
AbstractAluminosilicate materials can be transformed into very compact binding material by the proce...
Abstract The construction industry is one of the sectors which have significant impacts on the envir...
The aim of this work is to study the influence of the type of activator on the formulation of geopol...
The cement industry accounts for about 7% of all CO2 emissions caused by humans. Therefore, it is ne...
The development of geopolymers, as an alternative to traditional cement, by alkali activation of fly...
Aluminosilicate materials can be transformed into very compact binding material by the process calle...
This paper investigates the properties of geopolymer obtained by alkali-activation of fly ash (FA), ...
This paper investigates the effects of curing conditions on a high-strength geopolymer material synt...
Geopolymer is a class of aluminosilicate binding materials synthesized by thermal activation of soli...
The utilization of fly ash in brick as partial replacement of cement is gaining immense importance t...
In line with the current focus on utilizing side products of various production processes, this diss...
This study focuses on the use of fly ash (fly ash) as a key ingredient to replace ordinary Portland ...
Geopolymer is formed when a source of alumino-silicate is activated with highly concentrated alkalin...