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Surface Morphology and Structural Evolution of Magnetite-Based Iron Ore Fines During the Oxidation

Heng Zheng, Johannes Schenk, Runsheng Xu, Oday Daghagheleh, Daniel Spreitzer, Thomas Wolfinger, Daiwei Yang, Yury Kapelyushin

2022Metallurgical and Materials Transactions B20 citationsDOIOpen Access PDF

Abstract

Abstract The use of magnetite-based iron ore fines by means of fluidized bed technology has become a promising route to produce direct reduced iron. The significant influence of a prior oxidation treatment, which occurs in the preheating stage, on the subsequent fluidization and reduction behavior was observed in our previous study. As a result, it is important to investigate the oxidation of magnetite-based iron ore fines for an optimization of the proposed route. Three magnetite-based iron ore brands were analyzed. The oxidation characteristics are investigated based on thermogravimetric analysis. The surface morphology, structural evolution, and phase transformation were studied with a scanning electron microscope, an optical light microscope, and a high-temperature-X-ray diffraction (HT-XRD), respectively. The three samples showed different oxidation capacity indexes (OCIs) but similar TG-DTG curves. The oxidation rate peaks at around 330 °C and 550 °C indicated the formation of γ -Fe 2 O 3 and α -Fe 2 O 3 . The hematite phase shows a particular growth habit. The oxidation first occurs at the surface, forming gridlike hematite structures, and then extends to the inside, resulting in hematite needles. The specific surface area and pore volume decrease significantly due to the sintering effect during oxidation.

Topics & Concepts

HematiteMagnetiteScanning electron microscopeMaterials scienceIron oreThermogravimetric analysisChemical engineeringSinteringMorphology (biology)Phase (matter)Fluidized bedMineralogyMetallurgyChemistryGeologyComposite materialPaleontologyOrganic chemistryEngineeringIron and Steelmaking ProcessesMinerals Flotation and Separation TechniquesMineral Processing and Grinding