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Abstract
This article is focused on the development of geopolymer–glass foam composite, produced by encapsulation of glass waste based lightweight aggregate in geopolymer matrix. The aim of the investigation was to encase glass foam with optimum cell size in geopolymer in order to obtain lightweight environmentally friendly concrete from waste materials. Physical properties (uniaxial strength and specimen density) of the geopolymer–glass foam composite were determined, while XRD, SEM and FTIR measurement were carried out to investigate the structure of the resulted composite. The density of the composite compared with the neat geopolymer decreased by 76%. XRD results show that amorphous gel was developed from fly-ash and glass foam. The SEM results confirmed the zeolite crystallization and revealed the gel reinforcing arrangement of it. FTIR results show difference in the material structure between the inner part of geopolymer matrix and the interface of geopolymer–glass foam.
Acknowledgements
The described article was carried out as part of the ‘Sustainable Raw Material Management Thematic Network—RING 2017’, EFOP-3.6.2-16-2017-00010 project in the framework of the Széchenyi 2020 Program. The authors express their thanks to Tamás Balogh and Richárd Mészáros BSc students for participating in the experiments.
Disclosure statement
No potential conflict of interest was reported by the authors.
Data availability statement
All data, models, and code generated or used during the study appear in the submitted article.