DE2341287B2 - Metallic casting belt for belt casting machines - Google Patents

Description

The invention relates to a metallic casting belt for belt casting machines, in which on the cast strand On the reverse side, a poorly thermally conductive coating is applied.

In the continuous casting of strips, i.e. cast strands with one cross-sectional dimension is much larger than the other, so-called tape casting machines are used, in which the solidification space essentially by means of two casting belts arranged at a distance of 3 of the desired casting belt thickness from each other, endless metallic belts rotating at casting speed are formed. In width will the solidification space is limited by mold walls that also migrate with it.

To produce a flawless strip-shaped cast strand, the circumferential metallic Bands form an absolutely flat boundary of the solidification space in the longitudinal and transverse directions. With regard to However, their thickness may not exceed certain values due to the alternating bending stress. Both demands can only be fulfilled if the belts are made of high-strength material and by means of the roller system are taut.

However, the mold wall formed essentially from such revolving casting belts has not only the task of giving the cast strand the desired shape, it must also be used for the heat of fusion be discharged. For this purpose, the casting belts are turned away from the solidification area The side is usually cooled by spraying a coolant. It is now not possible to use the casting belt of the to expose the full temperature difference between coolant on the one hand and solidifying melt on the other. It would warp as a result of different thermal expansion in such a way that tight tensioning to achieve flat mold walls is no longer possible. In addition, the continuous casting belt only a part of its length forms the mold wall, while the remaining part does not Has contact with the cast strand. An unprotected casting belt would be exposed to such thermal shock loads soon destroyed

Since the continuous casting of metals is only sensible and economical if the one used Casting device has the longest possible service life, measures must be taken to protect the cast belt, which is subject to high thermal loads. However, it must be ensured that the heat of fusion is dissipated. Attempts have therefore already been made to apply a bad w; ... leading Coating to thermally isolate the casting tape on the one hand and to the casting conditions on the other hand to achieve precisely matched resistance for heat transfer. Such coatings not only have to be temperature-resistant, flexible and tear-resistant, they have to be on the metallic surface the tapes also adhere well. In order to improve known coatings, it has been proposed to use the the solidification area facing surfaces of casting belts a thermally insulating protective cover to apply, which consists of a dispersion of finely divided, refractory material with an addition of finely divided carbon in an aqueous or alcoholic, a medium containing an organic resin binder.

From US-PS 31 63 896 a casting tape coating has also become known, which inter alia. Aluminum silicate fibers contains. These are relatively short fibers that appear as a dispersion in aqueous solution the casting tape can be applied, the applied layer only after a certain drying time solidified into a cohesive insulating layer. To improve flexibility and the adhesion, the known cast tape coating should also contain a synthetic resin binder. However, synthetic resin binders are not intended for the intended purpose (continuous casting of aluminum) sufficiently temperature resistant, so that the known cast tape coating - starting from the Surface coming into direct contact with the melt - as a result of thermal destruction of the artificial hindrance loses its coherence and is gradually discouraged. The abrasion of the Cast strip coating has the causes and disadvantages described below.

It has been found that Lei belt casting machines between the rotating belts and the solidifying Cast strand always has a certain relative movement because the strand shrinks when it solidifies. Due to this relative movement between the rotating strip and the cast strand, the poorly thermally conductive Coating also subject to friction. It has been found that the known coatings are not sufficiently resistant to abrasion during operation, so that they must be replaced soon. Through this the economy of the process is already impaired. In addition, it has to do with the cast strand Deposited abrasion, some of which is even included in the surface, has the disadvantage that the Cast product is not suitable for certain applications. For example, it is a cast aluminum strip further processed by rolling into sheets that are to be anodized, so it is because of the abrasion not possible to set a given anodizing color. But the abrasion not only prevents the setting of a certain anodizing color, because of its uneven distribution it also prevents over-

Mainly anodized surfaces with a satisfactory appearance can be generated.

To an economical production on belt casting machines It also means that the cast strands are immediately subjected to further processing by rolling be supplied so that the casting heat can be used for hot rolling. A distance the abrasion resulting from the cast strip coating would therefore have to occur immediately after the emergence of the Cast strand made from the casting machine. At this point, however, the cast strand is still so soft that a mechanical abrasion of the casting belt surfaces is out of the question. In addition, the metal loss would be economically unsustainable. Rinsing off the abrasion by spraying on gaseous or liquid Media, on the other hand, would only capture the loosely lying parts, but not those in the cast strand surface involved shares. In addition, such a cleaning process would result in a loss of casting heat tied together. The task is thus to create a poorly thermally conductive one for metallic casting belts To develop a coating that is not only temperature-resistant, flexible and tear-resistant, as well as on the metallic The surface of the tape adheres well, but also under the given conditions is abrasion-resistant, so that a longer service life is achieved and contamination of the cast strand is avoided will.

Surprisingly, it has been found that this object can be achieved if on the metallic Cast tape, on the side facing the cast strand, applied a poorly thermally conductive coating is made of flat material in the form of a temperature-resistant, abrasion-resistant fabric, fleece, Paper or the like

In a departure from the previous practice, the coating To apply in the form of a dispersion, the solution according to the invention consists of a coating material in the form of a fabric, a fleece, a paper or the like. Such materials have the advantage that they are one in themselves without the mediation of binders Form a stable layer that meets all requirements In contrast, those from a dispersion built-up coatings over their entire thickness

S contains binders, and thus also in the with the solidifying strand directly in contact with the surface. From the nature of the abrasion is too conclude that the binders used are destroyed or their binding power is reduced so much

ίο that the bound, finely divided substances can be rubbed off. The coating according to the invention is preferably applied to the metallic Casting tape glued on In this case, the binding agent does not come directly with the solidifying agent Strand in contact. Like the metal casting belt, it is located in a thermally protected area. To the To further reduce the temperature in the adhesive layer, it can be advantageous to add additives to the adhesive add thermally conductive materials.

That in the form of a fabric, a fleece, a paper or the like. Coating material used expediently consists of inorganic fibers. These are generally sufficiently temperature-resistant and abrasion-resistant so that in addition only

must be exposed to the fact that they can be processed into corresponding flat structures without unsuitable ones Binders must be used. Glass fiber fabrics have proven to be particularly advantageous the in many forms, both what the

Quality of the glass as well as the weave and the layer thickness are commercially available.

As a poorly thermally conductive coating, however, fabrics, fleeces, papers or the like made from organic materials can also be used Fibers are used. Polyureide fibers, for example, are considered to be sufficiently temperature-resistant (Kynol) into consideration. In addition to glass, inorganic fibers also include asbestos quartz, Alumina silicates, carbon, boron nitrite, etc. are suitable. Epoxy resins, polyimide resins, phenolic resins, Silicones or silicates can be used individually or as a mixture.

Claims (6)

& % Patent claims: ij 1. Metallic casting belt for strip casting machines, a. the one on the side facing the Gießstrar g : S a poorly thermally conductive coating. is brought, characterized in that a flat material in the form of a coating a temperature-resistant, abrasion-resistant fabric, fleece, paper or the like. Is applied 2. Casting belt according to claim 1, characterized in that that the coating consists of inorganic fibers 3. casting belt according to claim 1 or 2, characterized in that the coating consists of a glass fiber fabric consists 4. Casting belt according to claim 1, characterized in that the coating is made of organic fibers consists 5. Casting tape according to one of claims 1 to 4, characterized in that the coating is glued on is 6. casting tape according to one of claims t to S, characterized in that the adhesive additives of materials that conduct heat well