Durability, Mechanical, and Corrosion Characteristics of Recycled Aggregate Concrete Utilizing Locally Sourced Waste and Ultrafine Cerium Oxide

This study seeks to identify an environmentally sustainable method for utilizing the synergetic effects of window glass (WG), ceramic powder (CP), and ultrafine cerium oxide (UFC) in developing concrete containing 25% coarse ceramic aggregate. Four different mixtures were formulated. The first represents control, consisting of 100% ordinary Portland cement (OPC), two other mixtures were composed of 10% WG, 10% CP and 80% OPC, and the fourth mixture consisted of four compositions of 79.5% OPC, 10% WG, 10% CP, and 0.5% UFC. The effect of these additives on recycled ceramic concrete (RA) properties, including workability and setting time, compressive strength, total water absorption, permeable pore ratio, electrical resistivity, and corrosion resistance, was studied. The results showed that when 10% WG and 0.5% UFC were combined, the components' synergistic effect was more noticeable. It had a compressive strength of 44.53, 48.83, and 56.17MPa after 28, 90, and 180 days, which is higher than the ternary mixtures of Portland cement, ultrafine cerium oxide, and ceramic powder, as well as the quaternary mixtures of Portland cement, WG powder, CP, and UFC. Moreover, it recorded a lower corrosion rate than the reference mix (RA-C), ternary mix (RA-CP10UFC0.5), and quaternary mixes (RA-CP10WG10UFC0.5) mixes. Meanwhile, the quaternary mix (RA-CP10WG10UFC0.5) showed 40% and 45% lower porosity and water absorption than the control mixture and 54% higher electrical resistivity values compared to the control mixture and ternary mixtures (RA-WG10UFC0.5 and RA-CP10UFC0.5) at 180 days.