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Activation temperature-mediated mineralogical transformations in slate quarry sludge: Pozzolanic properties

•Slate sludge exhibits pozzolanicity activity.•Thermal activation improve slate sludge pozzolanicity.•Slate sludge thermal activation barely affects the morphology of C-S-H gels formed.•Slate sludge waste is apt for use as an addition in eco-efficient cements. Ornamental stone quarries generate huge...

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Bibliographic Details
Published in:Construction & building materials 2018-10, Vol.187, p.819-829
Main Authors: Sáez del Bosque, I.F., Frías, M., Sánchez de Rojas, M.I., Medina, C.
Format: Article
Language:English
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Summary:•Slate sludge exhibits pozzolanicity activity.•Thermal activation improve slate sludge pozzolanicity.•Slate sludge thermal activation barely affects the morphology of C-S-H gels formed.•Slate sludge waste is apt for use as an addition in eco-efficient cements. Ornamental stone quarries generate huge volumes of waste. The valorisation of such waste as possible additions (supplementary cementitious materials) to cement would contribute to the implementation of circular economy criteria in the construction industry. The study reported here constitutes a first-time analysis of the pozzolanicity and morphological and microstructural changes induced in slate quarry sludge by thermal activation. The findings showed that thermal activation enhanced waste pozzolanicity, which at later ages was slightly higher than found in granite sludge and lower than in silica fume and fired clay-based materials. According to the Frattini test, the materials resulting from blending 20% or less of this waste cannot be regarded as CEM IV pozzolanic cements. A microstructural study revealed the surface formation of C-S-H gels in the slate sludge/Ca(OH)2 system, which was more intense when the waste was activated. According to the statistical analysis performed, three factors -time, activation temperature and replacement ratio-, significantly affected slate sludge pozzolanicity.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2018.07.238