SU773090A1 - Briquet for steel treatment - Google Patents

Description

The invention relates to ferrous metallurgy, and more specifically to the processing of liquid metal. It is known to use carbon-containing materials for metal processing, for example, coke, which achieves carburization of the metal that is introduced into the metal together with ferroalloys 1. A disadvantage of the known metal processing using carbon-containing material is relatively low carbon absorption by the metal, which does not provide the specified composition become. The closest to the proposed technical essence and the achieved result is a briquette for metal processing containing manganese ore, reducing agents and fluxes, in which the ingredients are taken in the following ratio, weight. %: Silikomanganese 40 - 50 Aluminum powder 8-15 Fluor spar 5 - 8 Calcined dolomite 2 - 4 Manganese ore Else Effective metal deoxidation and metal doping with manganese is achieved when using a known briquette. However, deoxidation of low carbon steel is required due to the higher oxygen content in the metal. On the other hand, using a known briquette, it is impossible to adjust the composition of the deoxidized metell according to the carbon content, for example, if it is necessary to carburize the metal. The purpose of the invention is to reduce the p-value of reducing agents for deoxidizing and carburizing steel. The goal is achieved by the fact that carbon-containing material is introduced into the composition of a briquette containing manganese ore, reducing agents and fluxes in the following ratio of ingredients, wt. %: Manganese ore 35 - 55 Fluor spar 4 - 7 Burnt dolomite 1 - 3 Carbonaceous material12-25 Reducing agents based on a.puminium and silicon. Rest

The efficiency of carburizing the metal using the proposed briquette is determined on the basis of experienced-melts.

The degree of assimilation of carbon, input: in the composition of briquettes, is presented in the table.

An example. steel with a carbon content of 0.05% is obtained in the converter. Steel is released into the ladle, into which 1800 kg of briquettes having the following composition, wt.% Were previously loaded:

Manganese Ore46,3

Aluminum powder 5.5 65% Ferrosilicon 20.7 Coxy20.8

Fluorspar5.5 Annealed Dolomite 1., 2 Kovsheva metal sample has the following composition,%:

Carbon0.32

Manganese1.09

Sulfur

0.032

Phosphorus

0.016

Silicon

0.30

Nickel

0.02

Copper

0.06

Titanium

0.041

Aluminum

0,019

Manganese uptake from manganese ore is 90%.

The use of the proposed briquettes for the treatment of steel allows the metal to be purged to a lower carbon content in the metgill compared to a predetermined value, as a result of which it is possible to conduct smelting at a relatively low flow rate of cast iron compared to high carbon steel. At the same time, the consumption of the deoxidizing agent is reduced, since the carbon contained in the briquette also reduces the oxygen content in the steel.

Claims (1)

Claim Briquette for processing steel containing manganese ore, reducing agents based on aluminum and silicon, fluorspar and calcined dolomite, characterized in that, with * 5 in order to reduce the consumption of reducing agents for deoxidation and carburization of steel, a carbon-containing material is introduced into its composition when wearing ingredients, Manganese ore Feldspar is the following according. % : fifty 35 - 55 4-7 Calcined Dolomite Carbon-containing Material Reducers based on aluminum and silicon thirteen 12-25 Rest