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The Ideal and Regular Mechanisms of Hematite Reduction Reactions

Zhang We, Zhengliang Xue, Zongshu Zou, Henrik Saxén

2022Crystal Research and Technology23 citationsDOIOpen Access PDF

Abstract

Abstract The thermodynamic data of iron oxides reduction reactions from the most recognized thermodynamic database (NIST‐JANAF) show remarkable difference between stoichiometric and nonstoichiometric iron oxides. Iron oxides reduction equilibria in both CO‐CO 2 and H 2 ‐H 2 O atmospheres are calculated with Dieckmann's and Weiss’ defect models. Relevant literatures are investigated and reduction experiments are carried out to complement and interpret the newly calculated equilibrium diagram. The results suggest a conjecture of two routes for hematite reduction reactions. With the ideal and widely accepted mechanism, hematite is reduced to magnetite and then to iron below 576 °C, while the reduction route follows the sequence of Fe 2 O 3 → Fe 3− δ O 4 → Fe x O → Fe above 576 °C. With the regular but always unrecognized mechanism, the reduction process of hematite experiences Fe 3 O 4 , FeO, and Fe step by step in all possible temperature above 156 °C. In the regular mechanism, sufficient scattered impurities occupy crystal interstices of magnetite and prevent the newly produced FeO unit cell from dissolving into the solid solution of magnetite, and then the FeO will accumulate above 156 °C. Actually the regular mechanism is hard to realize and usually confused with the ideal mechanism. The presence of the regular mechanism is proved by experimental phenomena of the drop of eutectoid temperature.

Topics & Concepts

HematiteMagnetiteEutectic systemChemistryStoichiometryThermodynamicsDissolutionImpurityReduction (mathematics)CrystallographyInorganic chemistryMaterials scienceMineralogyPhysical chemistryMetallurgyPhysicsMathematicsOrganic chemistryMicrostructureGeometryIron and Steelmaking ProcessesMetal Extraction and BioleachingExtraction and Separation Processes
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