Alkali-activated mineral residues in constructionKriskova, Lubica (Avtor) Ducman, Vilma (Avtor) Loncnar, Mojca (Avtor) Tesovnik, Anže (Avtor) Žibret, Gorazd (Avtor) Skentzou, Dimitra (Avtor) Georgopoulos, Christos (Avtor) alkali-activated materialsbuilding materialsbauxite residuesteel slagpaversThis 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.Molecular Diversity Preservation International20252025-01-17 03:34:51Neznano21217sl© 2025 by the authors. Licensee MDPI, Basel, Switzerland.