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Fabrication and characterization of non-foamed and foamed geopolymers from industrial waste clays

In this work, an attempt to recycle Cyclones' and Feeders' waste-clays in fabrication of non-foamed and foamed geopolymers was performed. These industrial solid wastes are created as by-products from refractory industry. Firstly, the starting clay-wastes were converted into metakaolin by c...

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Bibliographic Details
Published in:Ceramics international 2021-10, Vol.47 (20), p.29320-29327
Main Authors: Zawrah, M.F., Badr, H.A., Khattab, R.M., Sadek, H.E.H., Abo Sawan, S.E., El-Kheshen, A.A.
Format: Article
Language:English
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Summary:In this work, an attempt to recycle Cyclones' and Feeders' waste-clays in fabrication of non-foamed and foamed geopolymers was performed. These industrial solid wastes are created as by-products from refractory industry. Firstly, the starting clay-wastes were converted into metakaolin by calcination at 850 °C. The calcined and uncalcined wastes were analyzed by X-ray fluorescence, X-ray diffraction and FT-IR. The calcined and uncalcined waste-clays were mixed with the suitable amounts of alkali activator to produce non-foamed and foamed geopolymers. The phase composition, physical properties, compressive strength and microstructure of the prepared geopolymers were examined by X-ray technique, Archimedes water-displacement method, hydraulic mechanical testing machine, and scanning electron microscope, respectively. The results revealed that non-foamed and foamed geopolymers were successfully prepared from the selected waste clays. The geopolymer that prepared from calcined Feeder's waste-clay exhibited the best compressive strength (29.4 MPa) among the other non-foamed geopolymers. The geopolymer prepared from 50% calcined Feeder's waste-clay and 50% calcined Cyclone's waste-clay exhibited also good compressive strength (19.6 MPa). Moreover, geopolymer foam with suitable compressive strength (8.46 MPa) was prepared from calcined Cyclone's waste-clay. The foamed geopolymer had higher apparent porosity and lower bulk density than the non-foamed geopolymers.
ISSN:0272-8842
1873-3956
DOI:10.1016/j.ceramint.2021.07.097