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Preparation and carbonation hardening of low calcium CO2 sequestration materials from waste concrete powder and calcium carbide slag

Songhui Liu, Pengjie Rong, Cheng Zhang, Jian‐Xin Lu, Xuemao Guan, Caijun Shi, Jianping Zhu

2023Cement and Concrete Composites111 citationsDOIOpen Access PDF

Abstract

A series of new low calcium CO 2 sequestration cementitious materials (LCC) with different Ca/Si ratios were prepared by sintering waste concrete fine powder (WCP) and calcium carbide slag (CCS) at different ratios. Their carbonation reaction activity, carbonation hardening properties, phase assemblages, and microstructure were systematically characterized. The results showed that when the WCP: CCS ratio was 70:30, the compressive strength of LCC reached 38 MPa after carbonation for 24h. With the decrease in the WCP: CCS ratio, the carbonation activity of LCC increased significantly. When the WCP: CCS ratio was 45:55, the compressive strength was increased to 109 MPa. Microstructure tests showed that the minerals of LCC gradually changed from CS and C 2 AS to C 3 S 2 and C 2 S. After carbonation, unreacted clinker particles, crystalline CaCO 3, and highly polymerized silica formed a dense microstructure, and the impurities of Mg element in the LCC triggered the formation of aragonite .

Topics & Concepts

CarbonationMicrostructureMaterials scienceCompressive strengthMetallurgyCalcium carbideHardening (computing)CementitiousCarbideCalcium carbonateCementComposite materialLayer (electronics)Concrete and Cement Materials ResearchRock Mechanics and ModelingMagnesium Oxide Properties and Applications
Preparation and carbonation hardening of low calcium CO2 sequestration materials from waste concrete powder and calcium carbide slag | Litcius