E. El-Shereafy scite author profile

Fe 2 O 3 /C compacts prepared by mixing of nanosized Fe 2 O 3 (40-150 nm) with charcoal in a molar ratio of 1 : 4 were isothermally reduced at 950-1100uC in argon gas flow. The rate of reduction was calculated from the direct measurements of the mass-loss using TG technique. In addition, the QMS gas analyser was used to monitor CO and CO 2 concentrations in the off gases. The different phases developed in the composites were identified by X-ray diffraction and their structures were microscopically examined. The effect of temperature and particle size of Fe 2 O 3 on the reduction rates was studied. The reduction of Fe 2 O 3 was found to proceed in a stepwise manner up to metallic iron. Alternatively, the carbon solution loss reaction resulted from the gasification of charcoal plays a significant role in the carbothermic reduction process. Incubation periods were detected in QMS analysis at the beginning of reduction process. The charcoal volatiles interfered with the O 2 weight loss measurements, upon applying TG technique, resulting higher values of total weight loss than that measured by QMS. Comparison of the reduction testing techniques shows the differences in the actual reduction extents. The reduction kinetics were correlated with the microstructure of the reduced products and directed to the elucidation of the reduction mechanism.

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Electrical conductivity properties of some O-substituted arylazo — Barbiturate complexes at different temperatures

Masoud

El-Enein

El-Shereafy

1991

Journal of Thermal Analysis

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E. El-Shereafy

Mechanism of thermal decomposition and γ-pyrolysis of aluminum nitrate nonahydrate [Al(NO3)3·9H2O]

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Carbothermic reduction of Fe₂O₃/C compacts: comparative approach to kinetics and mechanism

Electrical conductivity properties of some O-substituted arylazo — Barbiturate complexes at different temperatures

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E. El-Shereafy

Mechanism of thermal decomposition and γ-pyrolysis of aluminum nitrate nonahydrate [Al(NO3)3·9H2O]

Carbon and nitrogen co-doped MoS2 nanoflakes as an electrode material for lithium-ion batteries and supercapacitors

Magnetically modified hydroxyapatite nanoparticles for the removal of uranium (VI): Preparation, characterization and adsorption optimization

Carbothermic reduction of Fe2O3/C compacts: comparative approach to kinetics and mechanism

Electrical conductivity properties of some O-substituted arylazo — Barbiturate complexes at different temperatures

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Product

Resources

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Carbothermic reduction of Fe₂O₃/C compacts: comparative approach to kinetics and mechanism