DE2630174B2 - SLIDER CLOSURES AND REPAIR COMPOUNDS FOR THESE MADE OF FIRE-RESISTANT BASIC MATERIAL - Google Patents

Description

The invention relates to slide closures and repair compounds for these made of refractory, basic Material for containers containing molten metal.

Ladles and other intermediate containers for holding molten, liquid metals such as in particular steel, have an outflow opening in their bottom part for discharging the molten metal on, which is often closed by a slide gate, which is parallel to the bottom of the ladle or the container is movable. These slide gate valves are particularly bad by erosion and Slagging and also stressed by temperature changes, and therefore there are already numerous refractory materials have been proposed for their construction. All known slide locks However, they were constructed from fired, refractory moldings, since it was assumed that only high quality Fired, refractory materials of a special composition meet the high requirements that Slide closures are to be provided, could have grown.

The present invention is based on the surprising finding that slide closures made of certain unfired materials the previously used slide locks made of baked, refractories are even superior in some respects. Accordingly, the invention relates to slide locks Made of refractory, basic material for containers containing molten metal, which thereby are characterized in that they are made of a chemically bound, basic material on the basis of Magnesia or magnesite chromium are built up with MgO contents of 55 to 98.5%. Preferably the MgO content can be 756 to 98.5%. Contained in a particularly expedient embodiment the slide gate valves, if their MgO content is 75% and more, as a binder phosphate, under whatever name polymeric phosphates

should be understood. If the MgO content is below 75%, chromic acid or chromium phosphates are used as binders preferable.

Furthermore, it was found that for the repair of such slide closures very excellent basic, refractory, chemically bonded masses of magnesia or mixtures of magnesia and chrome ore with MgO contents of 55 to 98.5%, in particular 65 to 98.5%, and chromates and / or phosphates as Binders own.

The term "slide locks" in the present context is not intended only to mean slide locks as a whole, but also include repair parts for such.

The invention is explained in more detail with reference to the following examples. For the sake of order it should be noted that all percentages relate to percentages by weight. The ones mentioned in the examples Figures relate to semi-micro photographs taken from slide plates, which were subjected to a wear test were obtained.

example 1

65% sintered magnesia I with a grain size of 0.3 to 1 mm and 35% sintered magnesia of the same composition In a grain size of 0 to 0.2 mm, 3 kg / 100 kg of the mixture were used to produce sodium metaphosphate and 2 kg / 100 kg of the mixture of water to form gate valve plates pressed and this dried at a temperature of 180 ° C. The sintered magnesia used I had the following composition:

SiO ₂ 0.26% Fe ₂ O ₃ 5.44% Al ₂ O ₃ 0.21% CaO 2.50% MgO 91.59%

The valve plates obtained in this way were subjected to the so-called torch test (U.S. Steel's Research Laboratory), which has been specially developed for testing pan closures. This torch test is essentially carried out as follows:

A torch, which is fed with 142 cm ^J / sec propane and 138 cm ³ / sec oxygen and is arranged at a distance of 6.4 mm from the refractory material or slide closure to be tested, is at a speed of 1.7 mm / sec moved over the material to be tested. If desired, the flame is passed over the material several times, but each time over different points. With the selected ratio of propane to oxygen of around 1: 1, the combustion is incomplete and the flame is relatively cool. By the action of the flame on the slide plates to be tested, these are more or less stressed and z. B. only superficially eroded or deeply damaged.

In the torch test, the slide plates obtained according to the invention were only moderately torn on their surface due to the stress of the flame, as can be seen from FIG. 1 of the enclosed semi-micro photos 1500 ⁰ C were burned, also the torch test

subject. In this case, not only could a much stronger surface erosion; but also complete cracking of the plates can be observed (Fig. 2).

This comparison test clearly shows the superiority the slide plates according to the invention compared to identically composed, but fired Phthalates.

Example 2

50% Sintermsgncsia I a grain size from 0.3 to 1 mm, 20% chrome ore from 0.3 to 1 mm and 30% sintered magnesia II with a grain size of 0 to 0.2 mm were added with 4 kg / 100 kg of the mixture sodium metanhosphate and 2 kg / 100 kg of the mixture water Compressed slide gate plates. These were dried at 150 ° C. and then in a vacuum Impregnated with anhydrous steel mill tar.

Chrome ore I was used as chrome ore for the production of part of the valve plates, for the production of the other part of the plates chrome ore II used. The composition of the sintered magnesia used Il and the chrome ores I and II were as follows:

Sintered magnesia Il Chrome ore I Chrome ore Il S1O2 0.74% 0.7% 2.5% FeiOj 5.54% 29.3% 17.7% AbO3 0.24% 15.3% 10.27% CnOi 46.2% 54.7% CaO 3.85% 0.1% 0.03% MgO 89.37% 8.4% 14.8% ΜΠ3Ο-4 0.26%

The two valve plates had the following chemical composition:

With chrome ore I With chrome ore Il SiO 0.37% 0.73% Fe ₂ O ₁ 7.62% 5.30 ° / « Subscription, 3.22% 2.21% Cr ₂ Oi 9.29% 10.99% CaO 1.12% 1.11% MgO 78.38% 79.66%

The melt product had the following composition-

SiO ₂

Fe ₂ O,

AhO ₁

CnO ₁

CaO

MgO

1.64% 6.12% 2.36%

11.16% 2.85%

75.51% 0.36%

The mixture turned into slide gate !! pressed that were dried at 170 "C.

The unfired valve plates obtained in this way showed only one in the torch test insignificant and practically negligible surface erosion (Fig. 5), whereas in exactly the same way built up but burned slide plates had considerable erosion furrows (FIG. 6).

When using the same melt product for the production of obtained by melt casting Slide plates showed that these slide plates in the torch test in a very short time in several pieces shattered (Fig. 7).

Example 4

65% sintered III of 0.3 to I mm and 35% sintered III a grain size of 0 to 0.15 mm were formed with 4 kg / 100 kg sodium metaphosphate to the mixture to Schicberverschlußplatten and it is dried at a temperature of 150 ⁰ C. The sintered magnesia III used had the following analysis:

SiO ₂ 0.29% Fe ₂ O ₁ 0.26% Al ₂ O, 0.19% Cr, O, 0.10% CaO 0.69% MgO 98.47%

In this case, too, the slide plates constructed according to the invention and made of unfired material showed significantly less erosion (Fig. 3) than slide plates of exactly the same composition, which, however, ^{had been tempered at 1000 °} C in a reducing or neutral atmosphere (F Fig. 4).

Example 3

65% of a melt product of the analysis given below and a grain size of 0.3 to 15 mm and 35% of the same melt product in a grain size of up to 0.2 mm were each in the following amounts, based on 100 kg of the melt product, additives or Mixed binders:

4 kg sodium metaphosphate, 1 kg dry sulphite waste,
1.7 kg of chalk and
1.9 kg of water.

These chemically bonded valve plates and valve plates fired at 1580 ° C of the same composition were subjected to a torch test, leaving the unfired panels on their surface only moderate, but the burned panels were severely eroded.

Example 5

Two repair compounds for slide valve phits were made structured as follows:

a) 70% sintered magnesia 1 0 - 0.3 mm 30% chrome ore! 0-0.3 mm .3% sodium metaphosphate

b) 94% sintered magnesia 111 0 - 0.3 mm

1.5% sintered magnesia IU 0 - 0.12 now 4.5% CrO!

In the case of the repair measure a) 1 to 4% Phosphate, in the case of reparalurinase b) 3 to 15% des Chromate binding agent made from CrO and sintered magnesia in a ratio of 3: I can be used. The masses are just before their use with water offset.

It can be seen from the examples that this is surprising and in no way predictable Behavior of unfired valve gate plates is completely the same as that of fired valve plates Composition consists in that the unfired

Plates have a considerably better resistance despite their significantly lower mechanical initial strength against the temperature shock and the erosion effect caused by the torch test Flame caused, have.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Slide closures made of refractory, basic material for containers containing molten metal, characterized in that it consists of a chemically bound, basic material are based on magnesia or magnesite chromium with MgO contents of 55 to 98.5%. 2. Slide closures according to claim 1, characterized in that they have an MgO content of 75 up to 98.5%. 3. Slide closures according to claim 2, characterized in that they are phosphates as a binder contain. 4. Slide closures according to claim 1 or 2, characterized in that they a.'s binder Contain chromic acid or chromium phosphate. 5. Basic, refractory, chemically bonded compounds for the repair of slide gate valves according to one of claims 1 to 4, characterized in that it is made of magnesia or mixtures of magnesia and chrome ore with MgO contents of 55 to 98.5%, in particular 65 to 98.5%, and chromates and / or phosphates as Binders exist.