Resource Saving in Technologies of Extraction and Processing of Ores for Metallurgy

D.A. Lubyanoi; E.G. Kuzin; V.N. Shahmanov; V.A. Narskiy

doi:10.4028/p-i5pbkb

Paper Titles

Investigation of the Operational Durability of High Pressure Metal Hoses Made of Austenitic Steels
p.1

Investigation of the Nature of Damage to Welded Flexible Compensating Elements Made of Austenitic Stainless Steels
p.9

Study on the Effects of Hydrostatic Pressure on the Structural State of Pure-Iron during Hardening Treatment with a Multiradius Roller
p.17

The Residual Stress Modeling in Surface Plastic Deformation Machining Processes with the Metal Hardening Effect Consideration
p.27

Resource Saving in Technologies of Extraction and Processing of Ores for Metallurgy
p.39

Features of Metallurgical Production in Small Foundries with Induction Furnaces
p.47

Study of Abrasive Grains for Susceptibility to Electrostatic Field Effect
p.57

Comparison the Preparation Methods of Powder Feedstock for Laser Powder Bed Fusion
p.63

Structure, Magnetic Characteristics and Stress-Strain State of Structural Steel Welded Pipelines
p.73

HomeSolid State PhenomenaSolid State Phenomena Vol. 328Resource Saving in Technologies of Extraction and...

Resource Saving in Technologies of Extraction and Processing of Ores for Metallurgy

Abstract:

This paper presents the results of a study of the search and detection of iron ore minerals in the dumps of mining enterprises by the method of georadiolocation. The possibilities and technologies of the development of a technogenic deposit with low costs for the production of iron ore are shown. The main advantage is the presence of minerals already on the surface and does not require complex mining technology. The next stage considers the issues related to the problems of the technology of preparation of the charge for the production of cast iron when using the raw materials of technogenic deposits. Special attention is paid to the content of various alloying additives, an assessment of their influence on the properties of gray cast iron is given.

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Periodical:

Solid State Phenomena (Volume 328)

Pages:

39-46

DOI:

https://doi.org/10.4028/p-i5pbkb

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Online since:

February 2022

Authors:

D.A. Lubyanoi*, E.G. Kuzin, V.N. Shahmanov, V.A. Narskiy

Keywords:

GPR, Mining Technologies, Processing Technologies, Resource Saving, Technogenic Deposits

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References

[1] E. Pudov, E. Kuzin, A. Efremenkov. Estimation of impact of rock conditions on the conveyor workings geometry by means of geophysical methods. IOP Conference Series: Materials Science and Engineering. The conference proceedings ISPCIET'2020. 2020. p.012063.

DOI: 10.1088/1757-899x/939/1/012063

Google Scholar

[2] Robert Hunter. Handling and shipping of «DRI/HBI», VATECH, Moskau, 2005, 10 p.

Google Scholar

[3] Garina I. M., Meshcheryakova N. I. Iron ore casting for the processes of direct reduction of iron in mine furnaces / Chermetin-formation, 1983. 45 p.

Google Scholar

[4] Small M. Direct reduction of iron ORE, Journal of metal, 1981, april. P. 67-75.

Google Scholar

[5] Khodosov, I. E. The use of metallized ore-coal pellets in the smelting of synthetic cast iron // Science and youth: problems, searches, solutions. All-Russian Scientific Conference of Students, postgraduates and Young Scientists. 2016. pp.172-174.

Google Scholar

[6] Development of scientific and technological bases of processing of cast iron from thermal timing and ladle processing method of the resonant intermittent refining Lubyanoi D.A., Markidonov A.V., Nevolin V. M., Lubyanoi D. D., Kambalin I. O. IOP Conference Series: Materials Science and Engineering. 2020. 012048.

DOI: 10.1088/1757-899x/848/1/012048

Google Scholar

[7] Development of optimal formulations of natural alloyed cast irons for metals and engineering, and thermal timing subjected to secondary treatment by the method of resonance-intermittent refining Lubyanoi D. A., Shevchenko S. Yu., Lubyanoi D. D., A. V. Markidonov, Zvarych E. B. IOP Conference Series: Materials Science and Engineering. 2020. 012049.

DOI: 10.1088/1757-899x/848/1/012049

Google Scholar

[8] White O. A., Dvornichenko I. F. Application of carbonized metallised pellets in the smelting of grey cast iron in the cupola furnace // Metallurgy. Issue I. Mn.: BPI, 1977. pp.25-29. 17.

Google Scholar

[9] The process of melting metallized pellets in a cupola / V. M. Korolev, S. I. Lekakh, O. A. Bely et al. // Izv. vuzov. Ferrous metallurgy. 1978. No. 1. pp.173-176.

Google Scholar

[10] Production of ductile iron using metallized pellets in the charge / G. V. Gordeychik, S. N. Lekakh, O. A. Bely et al. // Metallurgy. Vol. 12. Mn.: BPI. (1978).

Google Scholar

[11] The first Belarusian pig iron / Khudokormov D. N., Korolev S. P., Bely O. A., Dovnar G. V., Chepyzhov B. A. // Casting and metallurgy. 2008, No. 3, pp.140-147.

Google Scholar