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Phase evolution and pulverization mechanism of self‐pulverizing carbonatable clinkers

Canyu Lv, Zhichao Liu, Fazhou Wang, Shuguang Hu

2022Journal of the American Ceramic Society19 citationsDOI

Abstract

Abstract This paper investigates the phase evolution and pulverization mechanism of a self‐pulverizing carbonatable clinker (SPCC) with a variety of raw material compositions. The particle size, mineral phases, and microstructure of SPCC, produced by sintering at 1400°C for 3 h, were systematically studied by laser particle size testing, XRD/QXRD and SEM/EDS. Results show that clinkers sintered by raw materials with low‐Ca/low‐Al (Ca/Si < 1.6; Al 2 O 3 < 10 wt.%) or high‐Ca/medium‐Al (Ca/Si > 2.6; Al 2 O 3 ≈ 10 wt.%) are non‐pulverized after cooling. The mineral phases of C 2 AS, CA, and C 12 A 7 are considered to facilitate clinker pulverization at low γ‐C 2 S contents. With the increase of Al 2 O 3 content in raw materials, SPCC is refined in particle size, accompanied by the significant decrease in the content of calcium silicates. Based on the results, guidelines for producing SPCC are proposed.

Topics & Concepts

Raw materialClinker (cement)Materials scienceMicrostructureSinteringMetallurgyPhase (matter)Particle sizeMineralParticle (ecology)MineralogyChemical engineeringChemistryCementGeologyEngineeringOrganic chemistryOceanographyPortland cementBone Tissue Engineering MaterialsAdvanced ceramic materials synthesisCalcium Carbonate Crystallization and Inhibition
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