RU2007467C1 - Method of refining of metal in ladle - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: slag in ladle is additionally re-mixed with gas jets directed on to surface of slag. In this case gas jets are directed from edges of ladle to center of "surf" that is to exit of two-phase gas-and-liquid flow to surface of melt. EFFECT: improved refining characteristics.

Description

 The invention relates to ferrous metallurgy and can be used for refining metal in a ladle.

 A known method of out-of-furnace steel processing, including smelting metal in a steelmaking unit, releasing it into a ladle, introducing slag-forming materials into the ladle and blowing the metal with an inert gas, in which purging is carried out at different depths of immersion to intensify slag-metal mass transfer [1].

 The disadvantage of this method is that the effect is only on the metal. In addition, a decrease in the depth of immersion of the tuyeres leads to an increase in the duration of averaging blowing.

 The closest to the invention in terms of technical nature and the achieved result is a method of refining metal in a ladle, which involves inducing active coating slag in a ladle and mixing the metal with slag due to inert gas supplied to the metal volume [2].

 The disadvantage of this method is that the intensification of the process of mixing slag and increase due to this the degree of refining of the metal is achieved only due to more intensive mixing of the metal. As a result, the intensity of slag mixing is insufficient and during the purge time, which is usually limited by the temperature margin, the slag does not have time to fully realize its refining ability.

 The essence of the invention lies in the fact that in the method of refining metal in a ladle, which involves inducing active coating slag in a ladle and mixing it with metal due to an inert gas supplied to the metal volume, according to the invention, the slag is further mixed with gas jets directed to the surface of the slag.

 An additional difference is that the gas jets are directed from the edge of the bucket to the center of the "breaker", that is, the place where the two-phase gas-liquid flow exits to the surface.

 Since the mixing of slag in the known method occurs only due to the transmission of an impulse from a moving metal to it, the slag in the bucket, when inert gas is fed into the metal volume, moves from the breaker to the edge of the bucket, and only slag layers are involved in the movement due to its high viscosity, directly adjacent to the metal surface. According to the invention, slag mixing is accelerated due to the direction of gas jets directed to its surface, directed opposite to the metal flows at the melt surface, but applied to the upper slag surface, i.e. at the slag-atmosphere interface. This creates conditions for better mixing of the slag and a fuller use of its refining ability.

The angle of attack of the gas jets is set from 0 to ^about 90 and is selected so as to be able to act on the slag surface at different relative slag ladle edge and location of gas feeding device, ensuring the movement of the slag on the ladle edge a "breaker".

PRI me R. Steel was smelted in a 350 t oxygen converter with top blast feed. During the smelting release, a solid slag-forming mixture in the amount of 10 kg / t was made into the ladle, consisting of CaO and CaF ₂ in a ratio of 3: 1. As a result, an active coating slag was formed on the metal surface in the ladle. For the purpose of averaging before continuous casting and additional refining, inert gas was fed into the metal into the in-line UDM at a flow rate of 1 m ³ / min. A sulfur distribution coefficient L _S = 25 was obtained, which allowed to reduce the sulfur content from 0.022 to 0.019%. In carrying out processing in accordance with the inventive method in addition to the previously listed processing conditions on the slag surface 5 directed gas jets with an angle of attack ^of 15 with respect to the vertical, and the gas flow rate to the mixing of the slag was 1.5 m ³ / min. As a result of purging for 8 min, a sulfur distribution coefficient L _S = 49 was achieved, which, with an initial sulfur content in the metal of 0.022%, made it possible to obtain 0.015% at the end of the treatment.

 Thus, the use of the proposed method of refining metal in a ladle allows to reduce the content of impurities in the metal due to a more intense interaction in the slag-metal system. (56) Copyright certificate of the USSR N 1305179, cl. C 21 C 7/064, 1987.

 Kudrin V. A., Parma V. Technology for producing high-quality steel, M.: Metallurgy, 1984, p. 320.

Claims (2)

 1. METHOD OF REFINING METAL IN A BUCKET, including induction of active coating slag in a ladle and its mixing with metal due to inert gas supplied to the metal volume, characterized in that the slag is additionally mixed with gas jets directed to the slag surface.  2. The method according to p. 1, characterized in that the gas stream is directed from the edge of the bucket to the center of the "breaker", that is, to the point of exit to the surface of a two-phase gas-liquid flow.