Microstructural and morphological evolution of fly ash based geopolymers

•Geopolymer microstructure and morphology changed with alkali concentration and curing temperature.•Geopolymers formed at 8M shown more reaction product and low carbonation.•The reaction product contains amorphous N-A-S-H gel and crystalline hydroxisodalite and zeolite ZK.•EDX confirmed enhanced dis...

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Bibliographic Details
Published inConstruction & building materials Vol. 111; pp. 758 - 765
Main Authors Nath, S.K., Maitra, S., Mukherjee, S., Kumar, Sanjay
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.05.2016
Elsevier B.V
Subjects
Fly ash
Fly ash geopolymer
FTIR
Geopolymer gel
Microstructure
Morphology
Polymeric composites
Reactivity
Structure
TGA
India
Reactivity
Fly ash geopolymer
Morphology
FTIR
Microstructure
Geopolymer gel
TGA
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Summary:•Geopolymer microstructure and morphology changed with alkali concentration and curing temperature.•Geopolymers formed at 8M shown more reaction product and low carbonation.•The reaction product contains amorphous N-A-S-H gel and crystalline hydroxisodalite and zeolite ZK.•EDX confirmed enhanced dissolution of Si with alkali concentration and Al with curing temperature. The microstructural and morphological evolution of fly ash geopolymer have been studied in relation to synthesis condition. The variable parameters for synthesis were NaOH concentration (6, 8 and 10M) and curing temperature (27, 45 and 60°C). The effect of these parameters on the early geopolymerization was elucidated using Isothermal conduction calorimeter (ICC) whereas on the final reaction product through Thermo gravimetric analysis (TGA). ICC results revealed that the main reaction peak corresponding to geopolymerization increases linearly with alkali concentration. The maximum weight loss in samples cured at 45°C as shown by TGA was due to formation of N-A-S-H (NNa2O, AAl2O3, SSiO2, HH2O) gel with more OH− molecules. Scanning electron microscopy, X-ray diffractometer and Fourier transform infrared spectroscopy have been used for structural characterization and indexing of morphological features. The dependency of structural re-organization on alkali concentration and curing temperature was evidenced by the change in Si/Al ratio in the reaction products, shifting of spectrum corresponding to SiOSi and AlOSi, and formation of new phases. The increase in Si/Al ratio with the higher molarity and decrease with elevating temperature shows that dissolution of silica was more influenced by alkali concentration whereas dissolution of alumina was more influenced by curing temperature.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2016.02.106