KR100347603B1 - Slag deoxidizer and its deoxidation method - Google Patents

Abstract

The present invention relates to a slag talcum material and the method of deoxidation thereof, and more particularly, to the slag talcum material of the slag characterized in that the ring 11 is attached to the upper surface while being shaped in the vertical length direction.

In addition, the present invention before the tapping of the converter (1), the deoxidizer 12 is embedded in the vertical longitudinal direction along the inner circumferential surface of the receiving ladle 4 so that the ring 11 over the top of the receiving ladle (4) Next, the slag 9 floating on the molten steel 10 in the grading ladle 4 is gradually raised together with the tapping of the converter 1 to continuously react with the deoxidizer 12 to be deoxidized. It relates to a method of slag calcination of students.

Description

Slag slag ash and its deoxidation method

The present invention relates to slag talcum ash and the deoxidation method of the molten steel, in particular, the slag gradually rising while forming the upper layer of molten steel by putting the slag talcum over the top of the molten steel deoxidation by continuously reacting with the deoxidizer The present invention relates to a slag talcum ash and a method of deoxidation thereof.

In general, slag, which is a non-metal oxide generated in the steelmaking converter process, is inevitably taken in the process of tapping the molten steel in the converter 1 through the tap hole 3 as shown in FIG. 1. It is mixed in the molten steel of the field and goes out.

At this time, the slag floating on the molten steel of the molten steel ladle (4) regenerates the molten steel as the interface reaction occurs at the interface in contact with the molten steel layer and at the same time phosphorus (P), sulfur (S), etc. contained in the slag Returning to the abdominal cavity and abdominal flow phenomenon is knocked to act to deteriorate the quality of the molten steel.

In addition, in order to adjust the components of the molten steel in the course of the slag and molten steel in the steel ladle (4) is introduced into the steel ladle through the chute (5).

Then, a worker 13 directly inserts a sack 13 containing deoxidizing material (a raw material of aluminum and silicon having strong affinity with oxygen) for slag deoxidation in the spring ladle 4.

However, in the conventional deoxidation method, since deoxidant is introduced into the steel ladle 4 while the deoxidant is contained in the sack 13, it is temporarily deposited to the molten steel layer to deoxidize the slag and deoxidize the molten steel, thereby not deoxidizing the slag. The molten steel is re-oxidized, thereby degrading the quality of the molten steel and reacting with the refractory materials of the slag and the slag which are not deoxidized to promote the wear of the refractory.

In addition, when the deoxidant contained in the sack 13 is manually put into the tapping ladle by the worker causes overload of work and unstable work, and exposed to high-temperature molten steel, the risk of safety accidents such as burns.

The present invention provides a slag talsite and a deoxidation method of the slabs so that the slag gradually rising while forming the upper portion of the molten steel by the slag talsant is put on the upper end of the molten steel to continuously deoxidize with the deoxidizers. Its purpose is.

1 is an ecological diagram showing a conventional slagtal acid operation,

Figure 2 is a perspective view showing the slag talcum of the sieve according to the present invention,

3 is a working state diagram showing the slag calcination method of students according to the present invention;

Figure 4 is a schematic diagram showing the slag talcum injection position of the tap water according to the present invention.

<Description of the symbols for the main parts of the drawings>

DESCRIPTION OF REFERENCE NUMERALS 1 converter 2: furnace ball 3: exit hole 4: tapping ladle 5: alloy steel chute 6: storage hopper 7: truck bogie 8: rail 9: slag layer 10: molten steel layer 11: ring 12: deoxidizer 13: deamination Sack

In order to achieve the above object, the present invention provides a slag talcum of the sieves, characterized in that the ring is attached to the upper surface while being shaped in the vertical length direction.

In addition, the present invention, before the tapping of the converter, the deoxidant is embedded in the vertical direction along the inner circumferential surface of the waterway, the ring spans the top of the waterway, and then with the tapping of the converter floating on the molten steel in the waterway ladle. As the slag is gradually raised to provide a slag deoxidation method of the sieves characterized in that the deoxidation by continuously reacting with the deoxidizer.

The present invention will be described with reference to the drawings.

Figure 2 is a perspective view showing the slag scattering material of the students according to the invention, Figure 3 is a working state diagram showing the slag scattering method of the students according to the invention, Figure 4 is the slag tals of the students according to the invention It is a schematic diagram which shows a feeding position.

In the deoxidizer 12 according to the present invention, the body 12-1 is shaped into various shapes in the vertical direction, and the ring 11 is attached to the upper end of the body 12-1, and the ring ( 11 is formed in a shape that can be easily hung on the upper end of the gradle.

At this time, the deoxidizer 12 is embedded in the vertical direction along the inner circumferential surface of the sieves when the body 12-1 is hooked to the upper end of the sieves 4 using the ring (11).

Here, the upper and lower lengths of the body 12-1 of the deoxidizer 12 are determined in consideration of the position of the slag layer 9 formed in the steel ladle 4, and the size of the deoxidizer body is related to the deoxidation capacity. It should be made in various sizes but manufactured considering worker's portability.

On the other hand, in the deoxidizer input method according to the present invention, the deoxidizer 12 before the tapping of the converter (1) so that the worker is embedded in the top of the steel ladle (4) using the ring 11 so as not to be exposed to high heat. Overwhelmed.

At this time, the number and type (size, length, length) of the deoxidizer 12 introduced into the grading ladles 4 are determined by the working data or the experience side.

Here, the input position of the deoxidizer 12 in the receiving ladle 4 is put into the stable zone 4-2 outside the tapping zone 4-1 through which the tapping flow of the converter 1 passes.

That is, in the tapping area 4-1 through which tapping flows, the surface of the tap is unstable and the slag layer 9 and the molten steel layer 10 are mixed up and down, and thus the deoxidizer 12 is not only slag but molten steel. There is also a problem of deoxidation.

Therefore, by injecting the deoxidizing material 12 along the inner circumferential surface of the water ladle 4 in contact with the stable zone (4-2) where the water surface is stable, the deoxidation effect of the slag is maximized.

Then, when tapping is started through tapping hole 3 of converter 1, molten steel 10 rises in tapping ladles 4, and slag 9, which is inevitably mixed, forms a layer on top of the molten steel layer. Is achieved.

Here, the slag layer 9 floating on the molten steel layer 10 upper portion of the steel ladle 4 is gradually brought into contact with the lower end of the deoxidizer 12 as the level of the molten steel layer is increased, and from this time As the ash is melted, it causes a slagtal acid reaction.

Therefore, the phenomenon of deoxidizing the molten steel layer 10 by the deoxidation material 12 melt | dissolving in the slag layer 9 which gradually rises in level, and deoxidation reaction is eliminated at all.

Eventually, an interface reaction occurs at the interface between the slag layer 9 and the molten steel layer 10 to reinvent molten steel and simultaneously return phosphorus (P) and sulfur (S) contained in the slag to the molten steel. Absorption of the slag is prevented by deoxidation of slag, thereby improving the quality of molten steel.

On the other hand, the ring 11 attached to the deoxidizer 12 and spread over the upper end of the water ladles 4 is removed from the water ladles in the process of excluding the residual water in the water ladles after the continuous casting process is completed.

The present invention by using a ring on the upper end of the steel slag, the slag forming the upper layer of the molten steel as the slag is raised to react with the deoxidizer continuously deoxidation by preventing the deoxidation of the molten steel by the deoxidizer, and the interface It prevents the reoxidation of the molten steel by the reaction and the compounding and double flow phenomenon, thereby providing the effect of improving the quality of the molten steel.

Claims (3)

Slag of the grazing slag characterized in that the ring 11 is attached to the upper surface while being shaped in the vertical length direction. Before the tapping of the converter 1, the ring 11 is placed over the upper end of the water ladle 4 so that the deoxidizer 12 is embedded in the vertical direction along the inner circumferential surface of the receiving ladle 4, and then the converter 1 The slag (9) floating on the molten steel (10) in the grading ladle (4) with the tapping of the) gradually rises as the slag (9) is continuously reacted with the deoxidizer (12) Slagtal acid method. The method of claim 2, The deoxidizer (12) is a slag deoxidation method of the water ladle, characterized in that is introduced along the stable zone (4-2) of the water ladle (4).