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Alkali-Activated Mineral Residues in Construction: Case Studies on Bauxite Residue and Steel Slag Pavement Tiles

Lubica Krisková, Vilma Ducman, Mojca Loncnar, Anže Tesovnik, Gorazd Žibret, Dimitra Skentzou, Costa Georgopoulos

2025Materials12 citationsDOIOpen Access PDF

Abstract

This research aimed to investigate the potential of using alkali activation technology to valorize steel slag and bauxite residue for the production of high-performance pavement blocks. By utilizing these industrial by-products, the study seeks to reduce their environmental impact and support the development of sustainable construction materials. Lab-scale testing showed that bauxite pavers showed a decrease in mechanical strength with increasing replacement of ordinary Portland cement. Partial replacement up to 20% still exceeded 30 MPa in compressive strength. Steel slag-based pavers achieved the 30 MPa threshold required for the application with selected mix designs. Pilot-scale production-optimized formulations and standards testing, including freeze–thaw resistance, confirmed the technical viability of these products. Life cycle analysis indicated a 25–27% reduction in CO2 emissions for slag-based tiles compared to traditional concrete tiles. Moreover, using industrial residue reduced mineral resource depletion. This study examined the properties of the resulting alkali-activated binders, their ecological benefits, and their performance compared to conventional materials. Through a comprehensive analysis of these applications, our research promotes the circular economy and the advancement of sustainable construction products.

Topics & Concepts

BauxiteSlag (welding)Residue (chemistry)MineralMaterials scienceMetallurgyWaste managementChemistryEngineeringBiochemistryConcrete and Cement Materials ResearchRecycling and utilization of industrial and municipal waste in materials productionBauxite Residue and Utilization