DE2643009A1 - Refractory anti-splash grid for tundish - prevents tundish erosion during the continuous casting of steel - Google Patents

Abstract

Insert protects the surface of a metallurgical vessel, where the surface is exposed to a stream of molten metal, esp. in a tundish used for continuous casting. The insert prevents the splashing or spray from the molten metal, and consists of a grid made of thermally-insulating refractory material; the grid has a honeycomb of channels open at both top and bottom. The grid insert is pref. 10-200 (esp. 40-100)mm thick, and has webs which taper upwards or downwards, so the holes in the grid taper downwards or upwards. Used e.g. in the continuous castin of steel, to eliminate splashing from a falling stream of molten steel without conducting much heat out of the melt, and also preventing the erosion of the surface of the tundish base.

Description

Insert body to protect the impact surface of a

Pouring stream in a metallurgical vessel.

The invention relates to an insert body for protecting the Impact surface of a pouring stream in a metallurgical vessel, in particular in an intermediate container for the continuous casting, with boundaries surrounding the impact area, by means of which the melt shooting away from the impact surface and splashing away is restrained.

When pouring steel melts sometimes considerable Heights of fall of the pouring stream that cause the refractory material of the metallurgical Vessel is heavily stressed by erosion in the impact area. For intermediate containers in continuous casting impact stones are known, which essentially consist of a refractory Material (clay with more than 70% aluminum oxide, magnesite, etc.) Additions such as for example SiC and a ceramic binder. You own one high density and therefore ensure high resistance to erosion, to have but the disadvantage that they have a high heat capacity and, in particular, a high one Have heat transfer value, so that the refractory lining in the vicinity of the Prallstein is excessively heated.

There is another major disadvantage of the smooth impact stones in that the melt shoots away unhindered to the side when pouring and very strongly splashed. When the splashed drops hit the wall of the metallurgical vessel arrive and solidify there and then reached again by the melt and are taken away, so result when the solidified drops are not completely melt again, defects in the structure.

It is already known to place a steel wool cushion on the bottom of a mold or to add a layer of vermiculite there then poured through the steel wool or the layer, which dampens the metal beam.

However, these measures are primarily only at the start of casting or at least only effective for metallurgical vessels with limited casting times such as permanent molds.

With longer casting times, with those with the intermediate containers in continuous casting is to be expected, the steel wool and also the vermiculite would melt away prematurely be.

From the French patent specification 864 420 a is the cross section a ring of refractory material that essentially fills a mold is known, into which the pouring stream is directed. This embodiment corresponds to type mentioned above. The inner circumference of the ring forms boundaries, the Hold back the splashing melt and prevent it from hitting the cold mold wall to get. The ring floats up when the mold is filled and unfolds its Effectiveness throughout the casting. However, because of the necessarily large open cross-section of the ring do not always avoid certain proportions the melt spurt out from inside the ring. The opening of the ring can not be made much narrower, because otherwise with a restless pouring stream or in the case of a pouring stream that does not run exactly in the center of the mold get on the edge of the ring and would splash heavily there.

A high-floating insert body in molds is also in the Austrian one Patent 253,710. The actual body is shaped like a bowl with indented edge.

A toroidal vortex is supposed to be formed by the drawn-in edge that should take away its kinetic energy from the pouring stream. But if the bowl is filled with melt, the pouring stream falls freely into the melt, so that it is splashes again.

A bowl-shaped body is also from the German Offenlegungsschrift 20 20 713 known, but not for a free-falling pouring stream but for one in a forced guidance in the form of a reaching into the bowl Immersion tube guided pouring stream. The problem of splashing occurs here not on.

The invention has the Aurgabe, a foot body of the aforementioned Art to be designed so that with only little heat transfer from the melt the splashing of a freely falling pouring stream is prevented more reliably.

This object is achieved according to the invention in that the insert body the shape of a grate made of heat-insulating refractory material with honeycomb-like structures next to each other arranged, upwardly and downwardly open recesses.

The grate consists practically only of bars, so that it is not a large one Has heat capacity and because of the heat insulating material at the start of casting Also, no significant heat can get into the surrounding areas of the lining leaves.

Because there are several recesses, they are through the inner circumference of the individual recess given boundaries always very close at the point of impact of the pouring stream, so that splashing out of the insert body is made difficult.

Since the recesses are open from below, the insert body fills up not completely, because the melt always runs downwards. The insert body may become wedged or runny at the bottom of the metallurgical vessel. In the former In this case, of course, it is only effective as long as the fill level of the melt is not significant above its upper edge.

In the second case, the insert body floats with it and protrudes as a result its lower specific weight from the melt surface, see above that it remains effective throughout the casting in the same way as on the ground.

Another advantage due to the large number and the associated low cross-sectional expansion of the recesses comes about and which is particularly when the insert body rests on the floor, it is that of the point of impact Do not shoot away melt at high speed over large surfaces parallel flows to the ground, causing the severe erosion. The drain will rather, in the immediate vicinity of the point of impact due to the delimitation located there the respective recess held up.

Finally, it is also essential that the effectiveness of the insert body is retained at changing points of impact of the pouring stream.

So it is not important that the pouring stream is exactly at a specific one Body comes down. Even with a restless pouring stream or with several successive, The pouring jets impinging at different points keep the insert body full effectiveness. Its size is expediently chosen so that it covers the entire area covered, on which the pouring stream can fall at all.

The cross-section of the individual recess can be practically any to get voted. For geometric reasons and in order to get along with the narrowest possible bridges, Simple geometric shapes such as squares, hexagons and the like will be preferred be.

The recesses can also taper upwards or downwards. The interior then forms appropriately oriented pyramids or truncated cones. To have tapering recesses at the top due to the inclination of their walls the advantage that the melt splashing to the side mainly reflects downwards will. Downwardly tapering recesses can have particularly narrow webs are provided, so that the splashing due to the impact of the pouring stream can be kept low on the webs between the recesses.

It has been found to be useful if the insert body has a thickness of lo to 200 mm, preferably from 40 to loo mm.

In the drawing, exemplary embodiments of the invention are shown; 1 shows a view of the insert body from above; Fig. 2 shows a section along the line II-II in Fig. 1; Fig. 3 shows a corresponding section through another embodiment.

The insert body shown in Fig. 1 lo consists of a rectangular Grate with honeycomb-like juxtaposed recesses 1, which in the embodiment have a square plan and, as can be seen from Fig. 2, downwards towards, i.e. against the bottom 2 of the metallurgical vessel which forms the impact surface 3 rejuvenate. In the embodiment of FIG is it is a rectangular insert body with four recesses 1 in one and five in the other direction. The webs remaining between the recesses 1 4 are narrow in relation to the extent of the recesses, so that the pouring stream predominantly arrives in the recesses.

The heat insulating refractory material can be the heat insulating material as it is in the form of plates for block head insulation and lining is used by intermediate tanks for continuous casting plants. It consists of one refractory granular filler (quartz, chamotte, etc.), organic and / or inorganic Fiber material (paper fibers, asbestos fibers, rock wool, slag wool, aluminum silicate fibers etc.) and additives such as lightweight materials and binders.

The webs 4 of the insert body lo form boundaries with their side walls 5, on which the impact surface 3 of the pouring stream 6 is parallel to the impact surface 3 melts shooting away immediately hits it, holding it back and diverting it as shown at 7 in FIG. So it cannot happen that over one and the same point of the impact surface 3 always piping from the pouring stream 6 subsequently delivered very hot melt shoots away in parallel, which would otherwise lead to the strong Erosion leads. The deflections of the melt in the insert body lo result in turbulence, the which withdraw its kinetic energy from the pouring stream 6, so that it flows slowly to the side. Already in the recesses 1 of the insert body Lo located melt forms a kind of cushion, which is subsequently supplied from the pouring stream 6 Prevents melt from reaching directly on the impact surface 3 and there to be able to fully exert their eroding effect.

The insert body lo 'according to FIG. 3 differs only in this way of the insert body lo according to Fig. 2, that the recesses 1 'taper upwards, so that the boundaries 5 'are gnawed inwards and meet the boundaries 5' Melt is preferably deflected downwards, as indicated schematically at 8 is.

The bottom 2 can be both the bottom of a mold also act, for example, to the bottom of an intermediate container in the continuous casting. in the In the latter case, the insert body 1o, lo 'is preferably wedged to the ground, because the level in the intermediate container is not very large and it is primarily Line that goes around; to prevent the erosive effect of the pouring stream 6, what is only possible if the insert body lo, lo 'remains on the ground. In a mold however, the insert body can float up lo, lo ', because this is the level much larger and the proportions only matter at the beginning of the casting to master on the ground.

The insert body has proven itself in tests.

In a panel-lined intermediate container for continuous casting plants, which is covered with a highly refractory impact stone in the area of impact of the pouring stream was, a fiction according to he insert body was wedged on the impact stone, wherein the arrangement corresponded to that of FIG. After pouring 50 tons of steel over a Casting time of 45 minutes it was found that the impact surface was washed out 3 of the impact stone was reduced to a minimum.

Another flat-lined intermediate container was in the impact area of the pouring stream is initially laid out with a thermal insulation plate and then this covered with an insert body in the arrangement according to FIG. After pouring under the same casting conditions as in the first experiment it could be determined that the heat insulating plate located under the insert body lo 'is just as small was stressed like the impact stone in the first attempt.

L e r s e i t e

Claims (1)

Claims. 1. Insert body to protect the impact surface of a pouring stream in a metallurgical vessel, in particular in an intermediate container for the Continuous casting, with the impact area surrounding boundaries, by means of which the of the impact surface shooting away and splashing away melt can be retained, thereby characterized in that the insert body (lo, 10 ') has the shape of a grate made of heat-insulating refractory material with honeycomb juxtaposed, up and down has open recesses (1, 1 '). 2. insert body according to claim 1, characterized in that the Grate is formed by a grid forming webs (4), which between them the recesses Leave (1, 1 ') blank. 5. insert body according to claim 1 or 2, characterized in that that the recesses (1) taper upwards. 4. insert body according to claim 1 or 2, characterized in that that the recesses (1) taper downwards. 5. insert body according to claim 1 or 2, characterized in that that the recesses (1 ') taper upwards. 6. insert body according to one of claims 1 to 5, characterized in that that the insert body (lo, lo ') has a thickness of lo to 200 mm, preferably 40 has up to loo mm.