DE1558385B1 - Continuous casting mold - Google Patents

Description

The metal jacket expediently consists of a copper plate, the surface of which is also electrolytic Precipitation generated efflorescence is occupied. The copper plate is the mold cavity customized. So you can, for example, cylindrical

Half of the mold is cut open;

Fig. 2 is a section through elevation while

A b b. 3 an enlargement of a section from Fig. List.

The cooling water space 3 has the water inlet 1 and outlet 2. It is limited by the mold shell 4, the top and bottom cover plate 5

It is already known that non-ferrous heavy metals,
in particular copper, in a mold of the aforementioned
Type of potting that consists of a pipe made of copper or other highly conductive materials. the
The outside of the tube is intensively cooled, while a graphite lining is used on the inside, that is to say in the actual shape or rectangular shape, giving part. There- . While according to the known versions of by it has been made possible, in particular sour molds to cast the production of highly thermally conductive material-containing copper in the strand. Through connections between the insert and the mold wall, the use of a graphite lining, which is only very difficult to cool because of the intimate contact with molds for the casting of, in particular, right-contact with a cooled metal jacket, such as plates, because the use was not necessary the invention of a special lubricant, since the graphite itself - even with these formats - has perfect casting and lubricating properties. Use with high output.

a special lubricant, such as. B. Oil, is The following embodiment is a strand

during the continuous casting of oxygen-containing copper, the casting mold is shown.

permissible, since the oxygen of the copper with the A b b. 1 shows the plan, with the right

Lubricant forms a chemical compound which, in the form of inclusions, forms defects in the continuously cast product causes.

The well-known continuous casting mold is for the strand 25
pour with a large output is therefore suitable because
the inner surface of the graphite insert, which comes into direct contact with the liquid cast material, does not assume a temperature higher than that at which the 30 and 6, which burns or scorches with seals 7 and with the help of graphite, due to the intensive cooling. The output tension screws 12 and screws 14 are pressed, however, limits that the graphite. The delimitation of the cooling water space 3 itself only has a limited thermal conductivity; the meso ensures that its wall thickness is always kept low over the mold cavity 15, the four parts of which have to pass through the pulling screws. This measure is, however, held together with its nuts, which limits the fact that if the graphite insert is too thin, the metal jacket 8 has efflorescences 9 on the life span, since it is less when the graphite insert 11 is too thin Wall-thick cracks. The training The production of the composite panels 8/11 can be done in

an air gap between copper and graphite insert done in such a way that a thick metal plate in also significantly reduces the heat transfer. 40 immersed a corresponding electrolytic bath It is the object of the invention to become a mold, whereupon the efflorescence 9 and on both sides create that is suitable for training with particularly high training. By controlling the Bringing the natural erosion to the casting mold power supply, the efflorescence becomes a shape wall has a high resistance to wear, which allows parts of the graphite to be opposed. You should use a graphite insert that is as economical as possible, consisting of powder and water glass Pour and ensure a high level of accident safety. Ins- 11 can fix behind the undercuts, In particular, the mold should be suitable for casting oxygen-containing copper.

According to the invention, this object is achieved in a continuous casting mold mentioned at the outset by 50 that the metal jacket at the connection surface between the metal jacket and insert a variety of has randomly distributed efflorescence that is thermally connected to the metal jacket. The on

The insert applied to the metal jacket intervenes at the required points with parts behind the efflorescence, whereby heat is extracted from the continuous casting mold, the heat transfer is improved. This can be necessary especially with plate molds.

According to a special embodiment, be enough borrowed, where in the middle of the long sides a Efflorescence of the metal jacket through the use of stronger heat extraction is desired than on the through to the mold surface of the mold, so 60 other places.

that the use up to its with the cast material in the advantages achievable with the invention touch standing surface due to the protrusion, in particular that now also with platelet blooming is supported. tenkokillen a particularly good heat extraction

According to a further embodiment of the invention, it ensures burning or persistence the efflorescence from columnar scorching of the graphite insert is prevented. this elevations. You can also undercut the shape - this alone results in a considerable lengthening ner, mushroom-shaped structures, behind the parts of the life of the graphite insert. Furthermore Grip the graphite insert. this is still due to the finely distributed support network

As a result, a particularly tight interlocking is achieved, which on the one hand the heat transfer and on the other hand promotes shelf life.

The efflorescence 10 located on the side facing the cooling water space 3 are advantageous, because they bring about a better heat exchange between the cooling water and the metal jacket 8. By removing the efflorescence in places 10

prolonged, which is given by the efflorescence. In addition, the heat transfer is through the combination material enlarged, as an air gap between copper and graphite insert is avoided.

Claims (6)

Patent claims: 1. Continuous casting mold, consisting of a directly cooled metal jacket with an indirectly cooled one Insert made of heat-resistant, self-lubricating material, characterized by that the metal jacket (8) at the connecting surface between the metal jacket (8) and insert (11) has a large number of randomly distributed, has efflorescence (9) connected in a thermally conductive manner to the metal jacket (8). 2. Continuous casting mold according to claim I ₁ characterized characterized in that the efflorescence (9) of the metal shell (8) through the insert up to reach to the mold surface of the mold. 3. Continuous casting mold according to claim 1 and 2, characterized in that the efflorescence (9) consist of columnar elevations. 4. Use a mixture of graphite powder and a binder for the insert (11) a continuous casting mold according to claims 1 to 3. 5. Use of water glass as a binder according to claim 4. 6. Continuous casting mold according to claim 1 to 5, characterized in that the metal jacket (8) consists of a copper plate, the surface of which is produced by electrolytic deposition Efflorescence (9,10) is occupied. 1 sheet of drawings ßöpy