Impact of Initial Titanium Magnetite Ore Material Composition on Fluxed Pellet Metallurgical Properties

Boris P. Yur'ev; Vyacheslav A. Dudko

doi:10.4028/p-0d5qy9

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HomeMaterials Science ForumMaterials Science Forum Vol. 1052Impact of Initial Titanium Magnetite Ore Material...

Impact of Initial Titanium Magnetite Ore Material Composition on Fluxed Pellet Metallurgical Properties

Abstract:

Research work was carried out on the test units with the conditions close to the industrial ones to study the material composition impact of the concentrates produced from various types of the Kachkanar titanium magnetite ores on the fluxed pellet metallurgical properties. In order to study the pellet properties with a small number of experiments the simplex-lattice design method was used. Data was quoted on variation of key quality parameters of pellets from particular concentrate types and their mixture at certain horizons throughout the bed height with regard to a conveyer-type roast machine. An expression was obtained for the weighted average strength of commercial pellets. According to the data obtained in the course of the experiments with certain concentrate types and their well-balanced mixtures the expressions were introduced as incomplete cubic polynomials describing the key quality parameter variations of the pellets from optional composition mixtures. The work results are of certain interest for the process engineers and specialists dealing with iron ore raw material preparation, as they allow forecasting of high quality fluxed pellet production from various material composition concentrates.

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Periodical:

Materials Science Forum (Volume 1052)

Pages:

262-266

DOI:

https://doi.org/10.4028/p-0d5qy9

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Online since:

February 2022

Authors:

Boris P. Yur'ev, Vyacheslav A. Dudko*

Keywords:

Conveyer-Type Machine, Fluxed Pellets, Metallurgical Properties, Ore, Quality, Strength Factors, Titanium Magnetite Concentrates

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References

[1] V.M. Abzalov, S.N. Evstyugin, V.I. Clein, Thermal Performance of Conveyer-Type Roast Machines, Ural Department of Russian Academy of Sciences, Ekaterinburg, (2012).