RU2259405C1 - Cake for a steel deoxidation - Google Patents

Abstract

FIELD: metallurgy; methods of a steel deoxidation.

SUBSTANCE: the invention is pertaining to the field of metallurgy, in particular, to the methods of a steel deoxidation. The cake for a steel deoxidation is produced by a compaction method of an aluminum scrap and fragments of an alloy based on iron at the following components ratio (in mass %): an aluminum scrap - (25-32), the fragments of an alloy based on iron - (68-75). The density of the cake makes of no less than 0.9 from the density of the melted steel. In the capacity of an aluminum scrap the cake may contain aluminum tin cans. And as fragments of an alloy based on iron - a crushed steel and-or cast-iron scrap. The cake may be made in the form of an ellipsoid of revolution with a maximum size of 50 mm or in the form of a cylinder with a diameter of 191-199 mm and from 70 up to 165 mm in height. The invention allows to reduce the prime cost of a cake due to ease of manufacture and utilization of the aluminum and iron-containing waste, to improve the quality of a steel due to increasing a share of the aluminum interacting with the steel, its factor of assimilation and an uniform distribution in a volume of a melted steel.

EFFECT: the invention ensures reduction of the prime cost of a cake, improvement of a steel quality, an increase of its factor of assimilation, an uniform distribution of the cake in a volume of a melted steel.

5 cl, 1 ex

Description

The invention relates to the field of ferrous metallurgy and can be used in the production of various grades of steel for its deoxidation both in the process of steel smelting and in its after-furnace treatment.

Deoxidation of liquid steel is known during its out-of-furnace treatment with aluminum alloy [1].

The disadvantage of this process is that the addition of aluminum in the form of ingots for the purpose of deoxidizing liquid metal is accompanied by a large unregulated carbon monoxide when it interacts with slag oxides and oxygen, and accordingly wide variations in its content in the finished steel, and uneven distribution of aluminum in the melt.

The closest in technical essence and the achieved result to the invention is a briquette for steel deoxidation made of aluminum and iron-based alloy particles [2]. The specified briquette improves the efficiency of assimilation of aluminum.

However, this briquette has the following disadvantages:

- the complexity and cost of its manufacture, since it is obtained by melting pig aluminum in an induction furnace, kneading iron-based alloy particles in the melt and pouring the liquid-solid mixture into the molds after thorough mixing;

- due to the fact that aluminum and particles of an iron-containing alloy are fused with each other during the briquette manufacturing process, at the initial moment when the briquette enters the molten steel, the degree of dissolution of aluminum and its uniform distribution in the steel will not be sufficiently high due to the presence in the briquette on the border “aluminum - iron-based alloy particles” of Fe ₂ Al and FeAl intermetallic compounds, the dissolution of which occurs with the absorption of heat.

The basis of the invention is the task of obtaining a briquette for the deoxidation of steel with lower cost, which would be devoid of the above disadvantages and ensure effective deoxidation of steel.

The desired technical result of the invention is to reduce the cost of producing a briquette due to the simplicity of its manufacture and disposal of aluminum and iron-containing waste, improving the quality of steel by increasing the degree of assimilation of aluminum by molten steel and its uniform distribution in the volume of liquid steel.

This is achieved by the fact that the known briquette for steel deoxidation, made of aluminum and iron-based alloy particles, according to the invention contains aluminum scrap as aluminum and is obtained by pressing crushed aluminum scrap and iron-based alloy particles in the following ratio, wt.% ,:

- aluminum scrap 25-32, - iron-based alloy particles 68-75,

- the density of the briquette is not less than 0.9 of the density of liquid steel.

In addition, as aluminum scrap, it contains crushed waste aluminum cans.

As particles of an alloy based on iron, the briquette may contain crushed steel and / or cast iron scrap.

The briquette can be made in the form of an ellipsoid of revolution with the largest size up to 50 mm or in the form of a cylinder with a diameter of 191-199 mm and a height of 70-165 mm.

Aluminum deoxidizes liquid steel, that is, it binds oxygen contained in steel. The selected content of aluminum scrap in the briquette is associated with the regulation of the deoxidation of steel.

A decrease in the aluminum content in the briquette below 25% will lead to a decrease in the deoxidizing ability of the briquette, while the proportion of particles of an alloy based on iron, for example cast iron scrap, will increase in it, which will slow down the process of deoxidation of steel, and some undesirable carbonization of steel, and the concentration of aluminum in steel - low, which leads to a decrease in its mechanical properties, for example impact strength.

An increase in the aluminum content in the mixture above 32 wt.% Can lead to an unacceptably high aluminum content in steel, as well as an increase in nonmetallic inclusions, in particular, alumina string lengths, oxysulfide inclusions in steel can be located in the form of low-melting eutetics along austenitic grain boundaries and have the form of chains and films, which will increase the tendency of the metal to form cracks and flaws during rolling and forging.

The selected limits for the content of iron-based alloy particles in the briquette are optimal in order to obtain a sufficiently heavy and dense briquette immersed in steel, which increases the efficiency of steel deoxidation.

At a density of at least 0.9 of the density of liquid steel, the briquette is immersed in the molten steel, does not float in the slag, which ensures an increase in the absorption of aluminum and its uniform distribution.

When the density is less than 0.9 of the density of liquid steel, the pressed briquette is “loose” and not heavy enough. In contact with liquid high-temperature melt, it quickly decomposes into particles, which for the most part will go to slag. In this case, a uniform distribution of aluminum in the metal volume is not achieved.

The introduction of aluminum scrap into the briquette, for example, used aluminum cans, and crushed steel and / or cast iron scrap reduces the cost of briquette due to the disposal of used aluminum cans and metallurgical waste.

The implementation of the briquette in the form of an ellipsoid of revolution with a maximum size of up to 50 mm or in the form of a cylinder with a diameter of 191-199 mm and a height of 70-165 mm will further increase the degree of dissolution of aluminum, its absorption and uniform distribution in the volume of liquid steel, since when it enters the melt metal a lot of small, heavier particles of an alloy of iron, balls or cylinders, they are dispersed in the volume of liquid steel.

When it enters liquid steel, a layer of steel “freezes” on the surface of the briquette, which prevents the briquette from scattering in the upper part of the metal volume. The process of dissolving aluminum in liquid steel, which is the first to melt due to the lower melting temperature when the pressed briquette is immersed in steel and the “layer” of steel “melted” on it melts, in the proposed invention will be accompanied by an increased effect of the briquette dispersing into fragments, grinding and dispersion of deoxidation centers than in the prototype. This is due to the fact that between the contacting surfaces of aluminum scrap, for example shavings or crushed and flattened fragments of aluminum cans, and particles of crushed steel and / or cast iron scrap, there are microscopic gaps formed during the formation of a briquette by pressing, it is easier to disperse it into separate fragments than cast briquette. In this regard, during the processing of liquid steel, aluminum, which is part of the claimed briquette, more quickly and more fully dissolves and is absorbed by steel, more evenly distributed in it.

In addition, it is quite simple to manufacture, since it does not require expensive feedstock, an induction furnace for melting aluminum and casting equipment.

An example of the implementation of the proposed briquette for deoxidation of steel.

Steel and / or cast iron scrap is pre-crushed to fractions no larger than 50 mm, aluminum scrap is crushed, in particular used aluminum cans. Then the briquette components are thoroughly mixed in a weight ratio of 25 to 32 parts of aluminum scrap and from 75 to 68 parts of steel or cast iron scrap, respectively, and briquettes are pressed with an force of 8500 kN to a density of 6.52 to 6.16 g / cm ^3, respectively.

We tested the proposed pressed and fused briquettes according to [2] to determine the deoxidation efficiency of the intermediate steel produced from chipboard in a steel pouring ladle. The number of briquettes to be melted in the ladle was determined based on the production of 0.05 wt.% Aluminum in steel after deoxidation. It was found that under the same conditions (metal temperature 1590 ° C, carbon concentration 0.05 wt.%) The absorption coefficient of aluminum when using the proposed briquettes was 61%, and briquettes according to [2] - 38%.

An analysis of the results shows that when using a pressed briquette for the deoxidation of steel, provided for by the invention, due to more efficient deoxidation, the quality of steel increases, its cost is reduced.

Sources of information

1. SU 1025731 A, C 21 C 7/00, 1983

2. 2. RU 2208053 C2, C 21 C 7/06, 07/10/2003.

Claims (5)

1. The briquette for the deoxidation of steel, made of aluminum and particles of an alloy based on iron, characterized in that it contains aluminum scrap as aluminum and obtained by pressing crushed aluminum scrap and particles of an alloy based on iron in the following ratio, wt.%: Aluminum scrap 25-32 Iron Based Alloy Particles 68-75 the density of the briquette is at least 0.9 of the density of liquid steel. 2. The briquette according to claim 1, characterized in that it contains aluminum cans as aluminum scrap. 3. The briquette according to claim 1, characterized in that as particles of an alloy based on iron, it contains crushed steel and / or cast iron scrap. 4. The briquette according to any one of claims 1 to 3, characterized in that it is made in the form of an ellipsoid of revolution with a maximum size of 50 mm. 5. The briquette according to any one of claims 1 to 3, characterized in that it is made in the form of a cylinder with a diameter of 191-199 mm and a height of from 70 to 165 mm.