Synthesis of Fly Ash-Based Geopolymers: Effect of Calcite Addition and Mechanical Activation

Alexander M. Kalinkin; Basya I. Gurevich; Mikhail S. Myshenkov; Mikhail V. Chislov; Elena V. Kalinkina; Irina A. Zvereva; Zara Cherkezova-Zheleva; Daniela Paneva; Vilma Petkova

doi:10.3390/min10090827

Minerals (Sep 2020)

Synthesis of Fly Ash-Based Geopolymers: Effect of Calcite Addition and Mechanical Activation

Alexander M. Kalinkin,
Basya I. Gurevich,
Mikhail S. Myshenkov,
Mikhail V. Chislov,
Elena V. Kalinkina,
Irina A. Zvereva,
Zara Cherkezova-Zheleva,
Daniela Paneva,
Vilma Petkova

Affiliations

Alexander M. Kalinkin: Tananaev Institute of Chemistry—Subdivision of the Federal Research Centre “Kola Science Centre of the Russian Academy of Sciences”, Apatity 184209, Murmansk Region, Russia
Basya I. Gurevich: Tananaev Institute of Chemistry—Subdivision of the Federal Research Centre “Kola Science Centre of the Russian Academy of Sciences”, Apatity 184209, Murmansk Region, Russia
Mikhail S. Myshenkov: Centre for Thermogravimetric and Calorimetric Research, Saint Petersburg State University, St. Petersburg 199034, Russia
Mikhail V. Chislov: Centre for Thermogravimetric and Calorimetric Research, Saint Petersburg State University, St. Petersburg 199034, Russia
Elena V. Kalinkina: Tananaev Institute of Chemistry—Subdivision of the Federal Research Centre “Kola Science Centre of the Russian Academy of Sciences”, Apatity 184209, Murmansk Region, Russia
Irina A. Zvereva: Centre for Thermogravimetric and Calorimetric Research, Saint Petersburg State University, St. Petersburg 199034, Russia
Zara Cherkezova-Zheleva: Institute of Catalysis, Bulgarian Academy of Sciences, 1113 Sofia, Bulgaria
Daniela Paneva: Institute of Catalysis, Bulgarian Academy of Sciences, 1113 Sofia, Bulgaria
Vilma Petkova: Institute of Mineralogy and Crystallography, Bulgarian Academy of Sciences, 1113 Sofia, Bulgaria

DOI: https://doi.org/10.3390/min10090827
Journal volume & issue: Vol. 10, no. 9
p. 827

Abstract

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Blends of fly ash and natural calcite, mechanically activated for 0–400 s in a planetary mill, were used to synthesize geopolymers at ambient temperature. The calcite content in the blends was 0–10 wt.%. Sodium hydroxide solution was used as an alkaline agent. Mechanical activation of the raw material considerably enhanced its reactivity with respect to the alkaline agent, as was observed using Fourier-transform infrared spectroscopy, isothermal conduction calorimetry, thermogravimetry coupled with mass spectrometry analysis of the evolved gas, and SEM/EDS. The addition of calcite to the fly ash improved the compressive strength of the geopolymers, especially during the early age of curing. For 7 d aged geopolymers based on the 90% fly ash + 10% calcite blend, the strength was 8.0-, 3.5- and 2.9-fold higher than that for the geopolymers based on the unblended fly ash for 30 s, 180 s and 400 s mechanical activation time, respectively. Using Mössbauer spectroscopy, it was revealed that iron present in the fly ash did not play a significant part in the geopolymerization process. The dominant reaction product was sodium containing aluminosilicate hydrogel (N-A-S-H gel). Calcite was found to transform, to a small extent, to vaterite and Ca(OH)2 in the course of the geopolymerization.

Published in Minerals

ISSN: 2075-163X (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Geology: Mineralogy
Website: https://www.mdpi.com/journal/minerals

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