Yu. S. Yusfin scite author profile

Yu. S. Yusfin

4Publications

37Citation Statements Received

0Citation Statements Given

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Affiliations

National University of Science and Technology, Pipe Metallurgical (Russia), Magnitogorsk Iron and Steel Works (Russia)

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The role of alkalis and conserving resources in blast-furnace smelting

Yusfin¹,

Chernousov²,

Garten³

et al. 1999

Metallurgist

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In ferrous metallurgy, the potential for conserving resources is often determined by the behavior of the impurity elements in metals production. This behavior may be highly complex, and its features may be interpretedThe special importance of alkali metals and their compounds to the running of a blast furnace has long been known.Nearly 200 years ago, in his work "Traitte de Chemia" (in the section on iron) the eminent chemist I. J. Bercellius was describing the chemical transformations that iron undergoes in metallurgical production. In so doing, he was perhaps the first to have mentioned the remarkable materials that are formed in a blast furnace and that can be seen after the furnace has been blown out. Among these materials in particular are common salt (NaCL), potassium chloride (KC1), and potassium cyanide (KCN).Since that time, the behavior of alkali metals in blast-furnace smelting has been the subject of continuous research throughout the world. The largest study of this subject in our country was the study done (1931)(1932) on the smelting of titanium-magnetite ores in blast furnaces at the Verkhne-Turinsk and Nizhniy Tagil plants with the use of coke obtained from a charge containing additions of common salt (this so-called "salt" coke contained about 5% NaCL). During the heats, from 120 to 250 kg of NaC1 entered the furnace for each ton of pig iron smelted. With the slag having had a basicity (CaO + MgO)/(SiO 2 + A1203) = 0.8 and an Na20 content of 2.8%, furnace operators could not remove more than 50 kg of sodium from the furnace. Most of it was removed through the top along with the top gases. The rest of the sodium accumulated in the furnace, rapidly destroying the lining. Nevertheless, after two trial periods of furnace operation lasting 15 and 10 days, the factories were able to smelt about 2500 tons of vanadium pig iron. M. A. Pavlov was heavily involved in the study of the behavior of alkalis in blast furnaces. In his research conducted during the 1940s, he became probably the first scientist in this country to examine the mechanism of circulation and accumulation of alkali metals during the reactions that form their cyanides and carbonates: K2CO 3 + 4C + N 2 ~ 2KCN + 3CO, Na2CO 3 + 4C + N 2 ~ 2NaCN + 3CO.Moscow State Institute of Steel and Alloys.

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The Flow of Vanadium-Bearing Materials in Industry

et al. 2004

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Mechanism of mineral formation and metallurgical properties of sinter of basicity 1.1–3.1 at OAO MMK

et al. 2007

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New sources of raw materials for vanadium production

Yusfin¹,

Bazilevich²,

Chernousov³

et al. 1998

Metallurgist

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Yu. S. Yusfin

The role of alkalis and conserving resources in blast-furnace smelting

The Flow of Vanadium-Bearing Materials in Industry

Mechanism of mineral formation and metallurgical properties of sinter of basicity 1.1–3.1 at OAO MMK

New sources of raw materials for vanadium production

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