Utilization of Silicon Carbide Sludge as Metakaolin-Based Geopolymer Materials: Fid-Bau Portal

Utilization of Silicon Carbide Sludge as Metakaolin-Based Geopolymer Materials

Kae-Long Lin / Kang-Wei Lo / Ta-Wui Cheng / Wei-Ting Lin / Ya-Wen Lin

The recycling of SiC sludge material is crucial for resource reutilization and environmental protection. In the current study, the effect of the mass ratio between the Na₂SiO₃ and sodium hydroxide (NaOH) solutions (NS/SS ratio) and the effect of SiC sludge on metakaolin geopolymers was comprehensively investigated to determine the underlying performance of the geopolymerization system. During thermal evolution, the second exothermic peak of 1.6NS10SCS (NS/SS ratio: 1.6, 10% SiC sludge) showed a heat evolution value of 990.6 W/g, which was the highest among other geopolymers. Additionally, the 1.6NS10SCS sample after 28 days of curing showed the highest flexural strength (6.42 MPa), compared to that of the others, and the DTA/TG (differential thermal analysis/thermogravimetry) results showed that the weight loss percentage increased to 14.62% from 400 to 750 °C. For the ²⁹Si nuclear magnetic resonance deconvolution, 1.6NS10SCS exhibited high fractions of Q⁴(3Al) (33.63%), Q⁴(2Al) (23.92%), and Q⁴(1Al) (9.70%). Thus, the geopolymer with the optimal SiC-sludge replacement level and NS/SS ratio contained more macropores and geopolymer gels, which benefit structural development. The experimental results indicated that SiC-sludge can potentially serve as a partial replacement for metakaolin and exhibited favorable mechanic characteristics.