RO107861B1 - Ceramic recipient for steel deoxidation - Google Patents

Abstract

The invention relates to a container ceramic, intended for the introduction of aluminum into steel liquid, in order to deoxidize the steel. container is constituted by a ceramic tube (1) in which it is introduces aluminum, the cavity (b) of the tube being bounded at the bottom by a steel plate (2) tightly sealed into the inner wall, via a granular refractory mixture (3), and at part upper, porous ceramic plate (4). The tube The ceramic (1) is coupled to the insufflation pipe (6) inert gas by means of a threaded bush (7) welded to the underside of the pipe (6) on which it is mounted Thread a tightening body (10) that drives some reinforcement arms (9) mounted on a ring support (8) welded to the threaded bush (7), threaded the tightening body being made by by means of a clamping protrusion (d).

Description

The invention relates to a ceramic container, intended for introducing aluminum, into liquid steel, for the purpose of steel deoxidation.

Various containers for introducing the deoxidant into liquid steel, made of steel, are known to melt shortly after introduction into the metal bath. However, the use of steel containers presents uncertainty in operation, due to the lack of control of the dissolution of the steel container. In addition, these technologies also require additional steel consumption.

Also known are containers for transferring liquid steel, from a casting pot, into an ingot mold, which have an elongated shape, being made of a refractory tube based on aluminum and carbon, surrounded by a sleeve of a high refractory material, based on zircon, These containers, by their construction, do not allow coupling to the inert gas launcher in the pouring pot.

The problem solved by the invention is to make a container for the aluminum deoxidation of steel, so constructed that it can be coupled with the inert gas inlet pipe.

The container removes the disadvantages mentioned, in that it consists of a ceramic tube, in which aluminum is inserted, the cavity of the tube being delimited, at the bottom, by a steel plate, mounted tightly, in the inner wall, by means of a granular refractory mixture, and at the top, a ceramic plate, porous, and the ceramic tube is coupled with the inert gas inlet pipe, by means of a threaded bushing, welded by the bottom part of the inlet pipe, on which a clamping body, which drives three or more reinforcement arms, mounted on a support ring, welded by the threaded bushing, the threading of the clamping body being realized, by means of a clamping projection.

The container has the following advantages:

- allows to improve the safety in operation;

- reduces the metal consumption, by replacing the metal containers exclusively.

The following is an example of embodiment of the invention in connection with FIG. 1 and 2 representing:

FIG. 1, vertical section through the deoxidation plant;

FIG. 2, longitudinal section, through the coupling system of the inert gas inlet pipe, with the ceramic container.

The container consists of a ceramic tube 1, having, at the bottom, a steel support plate 2, which is located above a hole a and sealed in the inner wall of the tube, by means of a granular, refractory mixture 3. At the top of tube 1, a porous ceramic plate 4 is located, which together with the steel plate 2 delimits a cavity b in which aluminum is inserted.

For coupling with a blowing spear 5 of a deoxidation installation A, above the ceramic plate 4, it is welded on a blowing pipe 6, a threaded bushing 7, in the extension of which is welded a support ring 8, on which there are three or more reinforcing arms 9, mounted by means of a support hole c. By threading a clamping body 10, the arms 9, provided with risers, are trained, which will press on the inner wall of the tube 1.

The deoxidation preparation is carried out in the following way: the thin steel plate 2 is introduced, it is sealed with the granular, refractory mixture, the junction of the plate 2, with the inner wall of the ceramic container, after which the aluminum is introduced. Next, the porous ceramic plate 4 is mounted and then the lowering of the inflow pipe 6, having, at the lower end, a diffuser 11, until the contact of the diffuser 11 with the porous ceramic plate 4. an ordinary bush-type wrench, threading up to the fitting of the reinforcement arms (of the rice portion) on the vertical interior wall of the ceramic container. Then a protective brick 12 is mounted and then some bricks 13.

Before submerging the deoxidation assembly, the ceramic vessel is preheated from a mobile methane gas burner, for example, considering the flame to strike on the steel plate 2.

It will be considered that the steel plate is very thin (for example steel plate I thickness of 0.5 mm), in order to transmit the heat, easily, to the aluminum in the cavity b and for it to dissolve very quickly in liquid steel, when immersed. The thickness of the steel plate 2 must also ensure the support of the aluminum, during preheating and during handling before immersion in the liquid steel.

Transfer a pouring pot 14, with steel, to the deoxidation station A and immerse the ceramic container in steel, until near the bottom of the pot. The time required to dissolve the steel plate is maintained. 2. If the aluminum does not become liquid by preheating, then by maintaining the ceramic container in the liquid steel, the aluminum is also melted.

After melting the steel plate 2, inert gas is introduced, through the cavity of the inlet pipe 6 and through the diffuser cavity 11. The inert gas reaches aluminum, through the porous ceramic plate 4, where liquid aluminum will flow into the liquid steel, through the hole a.

The host steel pressure of the liquid steel will cause the aluminum to act in the cavity of the container upwards, but the presence of the porous ceramic plate 4 prevents the aluminum from ascending into the cavity of the inlet pipe.

Claims (2)

claims 1. Ceramic container, for the deoxidation of aluminum steel, characterized in that it consists of a ceramic tube (1), in which aluminum is inserted, the cavity (b) of the tube being delimited, at the bottom, by a steel plate (2), sealed in the inner wall, by means of a refractory, granular (3) mixture, and at the top, by a porous ceramic plate (4). Container according to claim 1, characterized in that the ceramic tube (1) is coupled to the inert gas inlet pipe (6), by means of a threaded bush (7), welded to the bottom of the inlet pipe (6), on which a clamping body (10) is screwed, which entails three or more reinforcement arms (9), mounted on a support ring (8), welded by the threaded bushing (7), the clamping body (10) being achieved by means of a clamping projection (d).