Jin, Q.; Xiang, W.; Xu, C.; Tang, G.; Liu, Z.
Compressive Strength and CO2 Mineralization Mechanism of Copper Slag-GGBS Alkali-Activated Geopolymer Composites Enhanced by MgO and Biochar. Materials 2025, 18, 4434.
https://doi.org/10.3390/ma18194434
AMA Style
Jin Q, Xiang W, Xu C, Tang G, Liu Z.
Compressive Strength and CO2 Mineralization Mechanism of Copper Slag-GGBS Alkali-Activated Geopolymer Composites Enhanced by MgO and Biochar. Materials. 2025; 18(19):4434.
https://doi.org/10.3390/ma18194434
Chicago/Turabian Style
Jin, Quanbin, Wei Xiang, Chenghua Xu, Guoyi Tang, and Zhibin Liu.
2025. "Compressive Strength and CO2 Mineralization Mechanism of Copper Slag-GGBS Alkali-Activated Geopolymer Composites Enhanced by MgO and Biochar" Materials 18, no. 19: 4434.
https://doi.org/10.3390/ma18194434
APA Style
Jin, Q., Xiang, W., Xu, C., Tang, G., & Liu, Z.
(2025). Compressive Strength and CO2 Mineralization Mechanism of Copper Slag-GGBS Alkali-Activated Geopolymer Composites Enhanced by MgO and Biochar. Materials, 18(19), 4434.
https://doi.org/10.3390/ma18194434