Litcius/Paper detail

Synergistic activation mechanism of full-solid-waste-based geopolymer: Unraveling hydration behavior and microstructure evolution from red mud, phosphogypsum and calcium carbide slag

Haotian Pang, Haole Wang, Qian Tian, Hua Li, Zecong Zhou, Yujiang Wang, Yujiang Wang

2026Construction and Building Materials9 citationsDOI

Topics & Concepts

PhosphogypsumMicrostructureMaterials scienceEttringiteChemical engineeringTernary operationActivator (genetics)Compressive strengthAlkalinityRed mudMetakaolinGypsumMetallurgyTernary numeral systemCarbideIonic strengthCementFly ashSlag (welding)Composite numberGeopolymerCarbonationDepolymerizationRheologyComposite materialCalcium loopingHydrotalciteCarbon blackNucleationConcrete and Cement Materials ResearchCO2 Sequestration and Geologic InteractionsMicrobial Applications in Construction Materials
Synergistic activation mechanism of full-solid-waste-based geopolymer: Unraveling hydration behavior and microstructure evolution from red mud, phosphogypsum and calcium carbide slag | Litcius