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Reaction kinetics and microstructure of pegmatite-based geopolymer composites: influence of calcined clay nature.

Authors :
Nana, Achile
Alomayri, Thamer
Tome, Sylvain
Nath, Susanta
Kamseu, Elie
Bignozzi, Maria Chiara
Leonelli, Cristina
Kumar, Sanjay
Source :
Journal of the American Ceramic Society. Apr2024, Vol. 107 Issue 4, p2693-2708. 16p.
Publication Year :
2024

Abstract

This research reports the investigations of threshold reactivity limit of blends of pegmatite with different calcined clays as well as the influence of calcined clay source on the geopolymerization kinetic, microstructural, and physicomechanical properties of feldspathic mineral-based inorganic polymer composites. These composites were designed from 85 to 94 wt% of the solid solution of pegmatite and calcined clay. The three-point flexural and compressive strengths, porosity, and microstructure as well as heat evolution rate of geopolymerization reactions of resulting composites were affected by the type of calcined clay. The four calcined clays provided the highest mechanical properties of the composites when added in the range of 12-15 wt%. Specifically, the values of flexural and compressive strengths ranged from 32 to 34 MPa and 101 to 105 MPa, respectively, for geopolymer composites with 15 wt% of metakolin added, while they ranged from 38 to 42 MPa and 106 to 107 MPa with 12 wt% of meta-hallosyte added. The polycondensation/polymerization process of calcined clay developed sufficient amounts of N-A-S-H and polysialate geopolymer to cover the incongruently dissolved fine particles of pegmatite. The resulting microstructure was dense and compact with the lower cumulative pore volume at about 91 mm3/g. It was concluded that designing the pegmatite/clay-based geopolymer composites with high mechanical strengths and low porosity resulted in sustainable, low energy consumption and environmental-friendly materials for civil engineering. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00027820
Volume :
107
Issue :
4
Database :
Academic Search Index
Journal :
Journal of the American Ceramic Society
Publication Type :
Academic Journal
Accession number :
175866278
Full Text :
https://doi.org/10.1111/jace.19576