KnE Materials Science
ISSN: 2519-1438
The latest conference proceedings on physical materials, energy materials, electrical materials.
Promising Directions of the Application for Poor Raw Materials of the Ferroalloy Production
Published date: Mar 17 2019
Journal Title: KnE Materials Science
Issue title: Theoretical and practical conference with international participation and School for young scientists
Pages: 70–76
Authors:
Abstract:
The mineral base state for Russian manganese and chromium ores does not allow our country in the foreseeable future to achieve complete self-sufficiency and to abandon imported raw materials. But the problem can be significantly mitigated due to the partial involvement in the operation of the proven ore reserves with relatively low quality. Based on the performed research, four main directions are formulated that would make it possible to put into operation a number of previously known but out-of-use (or poorly used) deposits of poor mineral raw materials for the ferroalloy production: (1) selective reduction of ore components divided into metal semi-products with a low main component content suitable for the smelting of the alloyed steel grades and an oxide product with a high content of Mn or Cr oxides suitable for the smelting of the high-grade ferroalloy grades; (2) rational additional charging of poor domestic ores to beneficiate imported ones to obtain standard grades of ferroalloys; (3) smelting of new alloys, including marketable high-carbon ferromanganese and ferrochrome with reduced main component content, high silicon content, and complex ferroalloys containing, in addition to the main, other elements necessary for the composition of a number of steel grades (silicon, manganese, titanium, etc.); and (4) production of limited grades of ferro-, silico-manganese, and chromium and their application in smelting of the ferroalloys refined grades.
Keywords: metallurgy, ferroalloys, mineral resource base, poor ores
References:
[1] Metal Research. Ferroalloys market in 2017 – 2018: http://www.metalresearch.ru/ ferroalloys_market_2017--2018.html
[2] State report About the state and application of mineral – raw materials in Russian Federation in 2013 Manganese ores (Report No. 2014. p. 137 – 142). Moscow.: ASJ «Mineral - Info».
[3] Boyarko G.Yu., Khat’kov V.Yu. (2018) Ferroalloys trade flows in Russia. Cherniye Metally, no 3, pp. 60–68.
[4] Lyakishev N.P., Gasik M.I. (1999). Chromium metallurgy. Moscow: ELIZ.
[5] Zayakin O.V., Zhuchkov V.I. (2015) A comprehensive study of the smelting processes for chromium-containing ferroalloys of poor chrome-ore raw materials Proceedings of the XVI int. conf. ”Modern problems of steel electrometallurgy”. Chelyabinsk: Publishing in SUSU.
[6] Zayakin O.V. (2017) Development of technology for producing chromium-containing ferroalloys from poor chrome-ore raw materials. Doctorate thesis, Institute of Metallurgy UB RAS.
[7] Zhuchkov, V.I., Andreev N.A., Zayakin O.V. et al. (2013) Composition and performance of chromium–bearing ferroalloys. Steel in Translation, vol. 43, no. 5, pp. 306–308.
[8] Zayakin O.V., Zhuchkov V.I. (2018) The scheme of chrome recovery in ore–smelting electric furnace. Infacon XV: International Ferro–Alloys Congress, Edited by R.T. Jones & P. den Hoed.
[9] Esenzhulov A.B., Ostrovskiy Ya.I., Veselovskiy I.A. et al. (2007) Production of high carbon ferrochrome from poor Ural chromite ores. Stal’, no 8, p. 54.
[10] Zhuchkov V.I., Zayakin O.V., Andreev N.A. et al. (2015) Comprehensive studies of high-temperature physicochemical processes and improvement of the technology for producing chromium-containing ferroalloys, Proceedings “Physical chemistry and technology in metallurgy ”. Chelyabinsk: South Ural Book Publishing.
[11] Gal’perin L.L., Zayakin O.V., Zhuchkov V.I., et al. (2004) Smelting of high carbon ferrochrome from poor chromite ores. Electrometallurgiya, no. 7, pp. 23–28.
[12] Chernobrovin V.P., Pashkeev I.Yu, Mikhaylov G.G. Features for application of the Ural chrome ore for carbon ferrochrome smelting, Abstracts of the International Scientific and Technical Conference ”Ural Metallurgy at the turn of the Millennium.” Chelyabinsk: SUSU
[13] Ostrovskiy Ya.I., Zayakin O.V., Zhuchkov V.I. (2010) Charge for obtaining of the high carbon ferrochromium, Patent. № 2403305 Russian Federation, Bull. № 31.
[14] Fadeev V.I., Ostrovskiy Ya.I., Veselovskiy I.A. (2011) Production of metallurgically treated charge chromium and its application during the ferrosilicochromium smelting. Electrometallurgiya, no 1, pp. 7–8.