2020
DOI: 10.28991/esj-2020-01247
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Effect of Admixtures on Durability Characteristics of Fly Ash Alkali-activated Material

Abstract: This paper deals with the possibility of partial replacement of blast furnace slag with fly ash and fly ash after denitrification by SNCR method in alkali-activated materials based on granulated blast furnace slag. The aim of this paper is to verify the effect of fly ash on properties of alkali-activated materials based on blast furnace granulated slag. Frost resistance and resistance to aggressive environments, represented by demineralized water were tested. The reference mixture was based on blast furnace gr… Show more

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Cited by 9 publications
(25 citation statements)
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“…Other minerals represented in this fly ash include Mulite, Magnetite, free lime and Hematite. This fly ash did not show a typical arc for the amorphous phase [33], so it can be assumed that this fly ash has low reactivity, which corresponds to the finding in [34] where the soluble amorphous phase content determined by cooking in 4 M potassium hydroxide solution was only 4.17%. so it can be assumed that this fly ash has low reactivity, which corresponds to the finding in [34] where the soluble amorphous phase content determined by cooking in 4 M potassium hydroxide solution was only 4.17%.…”
Section: Silica Fly Ash (Fa)mentioning
confidence: 62%
“…Other minerals represented in this fly ash include Mulite, Magnetite, free lime and Hematite. This fly ash did not show a typical arc for the amorphous phase [33], so it can be assumed that this fly ash has low reactivity, which corresponds to the finding in [34] where the soluble amorphous phase content determined by cooking in 4 M potassium hydroxide solution was only 4.17%. so it can be assumed that this fly ash has low reactivity, which corresponds to the finding in [34] where the soluble amorphous phase content determined by cooking in 4 M potassium hydroxide solution was only 4.17%.…”
Section: Silica Fly Ash (Fa)mentioning
confidence: 62%
“…Sillmanite mineral was also found in fly ash. This fly ash did not show a typical arc for the amorphous phase [17], so it can be assumed that this fly ash has a low reactivity, corresponding to the finding in [18], where the soluble amorphous phase content determined by cooking in 4 M potassium hydroxide solution was only for FAD 4.17 % and FA 4.58 %. In Figure 2 we see the particle size distribution determined by laser diffraction.…”
Section: Silica Fly Ashmentioning
confidence: 82%
“…Several types of activator were used in the experiment, namely sodium water glass with silicate modulus of 1 and 2, potassium water glass with silicate modulus of 1 and 2 and anhydrous sodium metasilicate with silicate modulus of 1. Some of these results have already been published in [18,21,22]. Based on previous experiments on VSB-Technical University of Ostrava, a partial replacement of slag with fly ash in the range of 10, 20 and 30 wt.% was chosen.…”
Section: Mixturesmentioning
confidence: 99%
“…Other minerals represented in this fly ash include mulite, magnetite, free lime and hematite. The content of the soluble amorphous phase determined by cooking in a 4 M solution of potassium hydroxide was only 4.17%, so it can be assessed that it is a low reactive fly ash [24,25].…”
Section: Silica Fly Ash (Fa)mentioning
confidence: 99%