Production of lightweight expanded aggregates from smectite clay, palygorskite-rich sediment and phosphate sludge

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abstract

Lightweight expanded clay aggregates (LWAs) are porous materials with low density and high strength (EN-13055-1), and they are important in sustainable construction through their lightweight nature and ability to provide thermal or acoustic insulation. The objective of this work was therefore to evaluate the preparation of LWAs using a smectite clay (M1 formulation), whose application in common ceramic production is difficult. An alternative approach was proposed for the valorization of phosphate sludge and a palygorskite-rich sediment by mixing them with expanded clay (M2 formulation) for LWA production. This could result in economically cost-effective products with significant environmental benefits. Pellets were prepared and fired at various temperatures (1100 degrees C, 1125 degrees C and 1150 degrees C), and relevant properties such as bloating index, density, water absorption and compressive strength were determined. Additionally, the microstructure, mineralogical transformations and phase compositions under various sintering temperatures were investigated. Increasing the temperature from 1000 degrees C to 1150 degrees C significantly improved the expansion properties of LWAs, and 1150 degrees C seemed to be the optimal firing temperature at which the best expansion properties were achieved. In addition, the incorporation of the selected waste improved the properties of the final products, leading to lower density, greater strength and greater bloating with the development of the internal pore structure as compared to the LWAs without this addition. Because of their low density (0.6 g cm-3) and sufficient compressive strength (0.86 MPa), the manufactured LWAs can be used in construction (as insulating panels or in lightweight concrete) and in green roofs.

keywords

SEWAGE-SLUDGE; SINTERING TEMPERATURE; PHYSICAL-PROPERTIES; WASTE GLASS; BY-PRODUCTS; BEHAVIOR; BASIN; MINES; MANUFACTURE; PERFORMANCE

subject category

Chemistry; Geology; Mineralogy

authors

Jaha, S; Carvalheiras, J; Mahmoudi, S; Labrincha, J

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Publication Details

type
Journal Article
year
2024
journal
CLAY MINERALS
volume
59
publisher
CAMBRIDGE UNIV PRESS
issn
0009-8558
isbn
1471-8030
issue
2
digital object identifier
10.1180/clm.2024.10
link
Bronze
web of science article identifier
WOS:001226184600001

Journal Metrics (JCR 2019)

Journal Impact Factor
1.361
Journal Impact Factor (5 yrs)
1.838
category normalized journal percentile
22.356

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