Add to ORKGWhen fly ash based geopolymer mortars were exposed to an elevated temperature of 800°C, it was found that the strength after the exposure sometimes decreased, but at other times increased compared to the original strength. The aim of this investigation is to find the reason for this contrasting behaviour. Following exposure to high temperature, residual strengths of specimens prepared with two different fly ashes, with initial strengths ranging from 5 MPa to 60 MPa, were investigated. The parameter that was found to have a major influence on the contrasting behaviour was the ductility of the mortars. The results indicate that the higher the ductility the lower the strength loss. This correlation is attributed to the fact that mortars with h...
The high temperature performance up to 800◦C of combined fly ash (FA) and slag geopolymers at\ud the...
This paper presents the effects of cation type, silicate concentration, compositions of low-calcium ...
The high-temperature behavior of alkali-activated fly ash (AAF) geopolymers is evaluated. The physic...
When fly ash based geopolymer mortars were exposed to an elevated temperature of 800oC, it was found...
When fly ash-based geopolymer mortars were exposed to a temperature of 800 °, it was found tha...
The advent of modern aluminosilicate binders has resulted in practical uses for fly ash, which belon...
In this study it was investigated the behavior of class F fly ash based geopolymer mortars subjected...
This study investigated the effect of elevated temperatures on the residual mechanical behaviors of ...
This paper presents a study on geopolymers and geopolymer/aggregate composites made with class F fly...
This paper presents the results of a study on the effect of elevated temperatures on geopolymers man...
Choice of alkali cation in mix design of geopolymers is critical for their thermal performance. Howe...
This study presents a proposed model for thermally induced microstructural changes in fly ash geopol...
The mechanical and microstructural properties of geopolymer concretes were assessed before, during a...
This paper presents a comparative study of the characteristic of unfoamed and foamed geopolymers aft...
Geopolymers have advantages such as good high-temperature, acid and sulfate resistance. Recently, re...
The high temperature performance up to 800◦C of combined fly ash (FA) and slag geopolymers at\ud the...
This paper presents the effects of cation type, silicate concentration, compositions of low-calcium ...
The high-temperature behavior of alkali-activated fly ash (AAF) geopolymers is evaluated. The physic...
When fly ash based geopolymer mortars were exposed to an elevated temperature of 800oC, it was found...
When fly ash-based geopolymer mortars were exposed to a temperature of 800 °, it was found tha...
The advent of modern aluminosilicate binders has resulted in practical uses for fly ash, which belon...
In this study it was investigated the behavior of class F fly ash based geopolymer mortars subjected...
This study investigated the effect of elevated temperatures on the residual mechanical behaviors of ...
This paper presents a study on geopolymers and geopolymer/aggregate composites made with class F fly...
This paper presents the results of a study on the effect of elevated temperatures on geopolymers man...
Choice of alkali cation in mix design of geopolymers is critical for their thermal performance. Howe...
This study presents a proposed model for thermally induced microstructural changes in fly ash geopol...
The mechanical and microstructural properties of geopolymer concretes were assessed before, during a...
This paper presents a comparative study of the characteristic of unfoamed and foamed geopolymers aft...
Geopolymers have advantages such as good high-temperature, acid and sulfate resistance. Recently, re...
The high temperature performance up to 800◦C of combined fly ash (FA) and slag geopolymers at\ud the...
This paper presents the effects of cation type, silicate concentration, compositions of low-calcium ...
The high-temperature behavior of alkali-activated fly ash (AAF) geopolymers is evaluated. The physic...