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Optimising the Performance of CO2-Cured Alkali-Activated Aluminosilicate Industrial By-Products as Precursors

Ghandy Lamaa, David Suescum-Morales, António P. C. Duarte, Rui V. Silva, Jorge de Brito

2023Materials17 citationsDOIOpen Access PDF

Abstract

Three industrial aluminosilicate wastes were studied as precursors to produce alkali-activated concrete: (i) electric arc furnace slag, (ii) municipal solid waste incineration bottom ashes, and (iii) waste glass rejects. These were characterized via X-ray diffraction and fluorescence, laser particle size distribution, thermogravimetric, and Fourier-transform infrared analyses. Distinctive combinations of anhydrous sodium hydroxide and sodium silicate solution were tried by varying the Na2O/binder ratio (8%, 10%, 12%, 14%) and SiO2/Na2O ratio (0, 0.5, 1.0, 1.5) to find the optimum solution for maximized mechanical performance. Specimens were produced and subjected to a three-step curing process: (1) 24 h thermal curing (70 °C), (2) followed by 21 days of dry curing in a climatic chamber (~21 °C, 65% RH), and (3) ending with a 7-day carbonation curing stage (5 ± 0.2% CO2; 65 ± 10% RH). Compressive and flexural strength tests were performed, to ascertain the mix with the best mechanical performance. The precursors showed reasonable bonding capabilities, thus suggesting some reactivity when alkali-activated due to the presence of amorphous phases. Mixes with slag and glass showed compressive strengths of almost 40 MPa. Most mixes required a higher Na2O/binder ratio for maximized performance, even though, contrary to expectations, the opposite was observed for the SiO2/Na2O ratio.

Topics & Concepts

Materials scienceSodium silicateCuring (chemistry)AluminosilicateThermogravimetric analysisCompressive strengthSodium hydroxideGeopolymerAlkali metalFlexural strengthFourier transform infrared spectroscopyComposite materialChemical engineeringOrganic chemistryChemistryCatalysisEngineeringConcrete and Cement Materials ResearchRecycling and utilization of industrial and municipal waste in materials productionNuclear materials and radiation effects