DE4230161A1 - Dry basic thermal insulation coating for molten metal - is free from binder and has high thermal insulation properties - Google Patents

Abstract

Dry basic coating material for molten metals consists of (A) 80-98 wt.% coarse dolomite, coarse magnesite, sintered dolomite and/or sintered magnesite of grain size 0.1-4.0 mm and (B) 2-20 wt.% expanded, vulcanised glass, expanded phyllosilicate and/or expanded mica of grain size 0.1-4.0 mm. The grain sizes of the components (A) and (B) are pref. 0.4-1.5 mm, and the loose density is 0.7-1.2 g/cm3. Component (B) is pref. expanded vermiculite or pearlite, and (A) is pref. Fe-free coarse magnesite. USE/ADVANTAGE - Coating of pig iron and steel in ladles, tundishes and moulds. The coating is dry and free from dust without having to employ a binding agent.

Description

The invention relates to a dry basic masking compound for metallurgical melts.

Such masses are used for thermal coverage metallurgical melts, such as molten pig iron or steel in metallurgical vessels such as pans, distributors or Chill molds used.

Metallurgical vessels with basic delivery usually covered with acidic covering powders. this leads to to reactions with the basic refractory linings of the metallurgical vessels and thus to reductions in the Durability. In this respect, basic masking compounds have basic metallurgical vessels advantages.  

Such a basic mass is from DE 38 16 715 A1 known. The mass consists of shredded, inorganic, refractory aggregates, such as raw magnesite and Binders based on phosphates, silicates or Sulfates. The mass is made up in granular form. The added binder and granulating make the Dimensions.

A covering compound consisting of pellets is made of DE 37 42 415 C1 known. The refractory component is made from olivine. Light supplements such as wood flour, paper flour, Vermiculite or the like can be used in the manufacture of the Pellets are added. The same applies here that Preparation process is complex and expensive. For The pellets are also binders necessary, which bring in part carbon, the is metallurgically undesirable because it causes carburization of the steel.

A similar masking compound is described in DE 37 27 619 C1. The pellets made from magnesite powder are covered there with a coating made of slag.

A binder-free masking compound discloses the DE 90 10 129 U1, the mass consisting of a compact different salts.

The invention has for its object a basic Offer masking compound that is binder-free and the largest going dry, high thermal insulation enables and preferably is not dusty. At the Applying known masking compounds has proven to be disadvantageous proved that fine-particle masses dust, which is why in the state The technology usually used to make binders bind the dust.  

It has now surprisingly been found that a basic Masking compound for metallurgical melts also binder can be made freely, and under exclusive Using a granular refractory component A and a grained, bloated light aggregate.

In its most general embodiment, the invention then relates to a dry basic covering composition for metallurgical melts, consisting of
Component A: 80 to 98% by weight of crude dolomite, crude magnesite, sintered dolomite and / or sintered magnesite with a grain size of 0.1 to 4.0 mm and
Component B: 2 to 20% by weight of a blown volcanic glass, blown phyllo silicates and / or blown mica with a grain size of 0.1 to 4.0 mm.

Although no binder is added, it does excellent spreadable masking compound available shows no signs of segregation. This is in essentially due to the fact that the fine grain range (less than 0.1 mm) and both components in a similar grain spectrum.

A further optimization in this sense can be done a grain size of components A, B in the range 0.1 to 1.5 mm to reach. Further grain spectra describe the claims.

The mass fractions of components A and B can be so matched that their volume ratio is approximately 50: 50%.

Accordingly, an embodiment of the invention provides to set the total bulk weight between 0.7 and 1.2 g / cm ³ .

Such a mass from a homogeneous mixture of Components A and B can be in a relatively thin layer are applied and leads to the formation of a very thin Melting film on the metal bath. This thin melt film is cheap because the thermal conductivity is low can be held (according to a maintenance the high insulation capacity of the residual mass). Another The advantage is that the thin melt film to Example when immersing shadow pipes, not is torn open, rather the melt film clings to it the immersed shadow pipe and leaves the insulating layer practically unharmed.

At the same time, however, oxide films can also be applied via the melt film Impurities are absorbed from the molten metal.

The mass according to the invention represents a physical one Mixture of components A and B. Each further Processing into granules, pellets or the like as well as any addition of a binder can be omitted.

Nevertheless or precisely because of this, trials were extreme Shelf lives are found up to 3 times over known coverings from rice bowl ash.

Another advantage of the masking compound according to the invention is that they are made exclusively from natural products exists, so that no environmental problems due to evaporation any pollutants can arise. Through the Avoiding a binder will also be undesirable prevents additional melting phases.

Because the mass does not have a noticeable fine fraction (less than 0.1 mm), the problem of dusting occurs  practically not on. The high fire resistance of the mass also prevents unwanted "skin formation" and an undesired "glowing" of the mass on the melt pool.

Another advantage of the mass is that it does not contains free silica that leads to unwanted enamel phase and to metallurgical problems like an Aufoxi would lead. These are metallurgical problems also reduced by the fact that there is no carbon in the mass is present or at most only in very small quantities.

The refractory component A preferably consists of low-iron, cryptocrystalline raw magnesite; but also Sintered magnesite fulfills the properties according to the invention in a special way.

Of the bloated Leichtzu presented as component B. bloated vermiculite has proven to be special emphasized advantageous. Although the use of Vermiculite in masking compounds is known as such (DE 37 42 415 C1); however only in the Packing of pellets using Binders.

This also applies to the alternative perlite light aggregate, a volcanic rock glass of rhyolithic Composition.

The bulk density of expanded vermiculite / pearlite is, for example, in the range 0.15 to 0.25 g / cm ³ . The bulk weight of component A is about 10 times higher. Mixed together in the stated weight fractions results in a dry, basic covering mass of volume fractions of approximately the same order of magnitude as component A and B with the desired low total bulk weight, preferably between 0.7 and 1.2 g / cm ³ . The fine porosity of the components additionally improves the insulating effect.

The masking compound described is easy to manufacture and can, for example, over big bags on the molten metal be applied.

The invention is based on an embodiment described in more detail:

The mass is made from the components:
A: low-iron, cryptocrystalline raw magnesite with a grain size of 0.4 to 1.0 mm: 92% by weight
B: expanded vermiculite with a grain size of 0.1 to 1.0 mm: 8% by weight. Components A and B are mixed homogeneously with one another and packed in a big bag.

In the steel mill, the covering compound is transferred from the big bag to the liquid steel applied in a pan, namely in a thickness of 2 cm (generally the mass should be in a Layer thickness between 1 and 6 cm) Because of the steel temperature, it forms briefly thin melt film in the contact area steel / masking compound, while the rest of the mass in the solid state remains.

There is no annoying dust during the spreading of the mass to observe development. There are no signs of wear vanten reactions with the refractory material of the basic delivered pan.  

Also, there were no negative reactions between Masking compound and molten metal observed.

In comparison with the previously used masking compound based Rice bowl ash has a three times longer shelf life reached.

Claims (8)

1. Dry basic masking compound for metallurgical melts, consisting of:
A: 80 to 98% by weight of raw dolomite, raw magnesite, sintered dolomite and / or sintered magnesite with a grain size of 0.1 to 4.0 mm and
B: 2 to 20% by weight of a blown volcanic glass, blown phyllosilicate and / or blown mica with a grain size of 0.1 to 4.0 mm. 2. Masking compound according to claim 1, in which the components A and B in a grain fraction between 0.1 and 1.5 mm available. 3. masking compound according to claim 1 or 2, wherein the compo nente A in a grain fraction between 0.4 and 1.5 mm is present.   4. masking compound according to claim 1 or 2, wherein the compo nete B in a grain fraction between 0.4 and 1.5 mm is present. 5. covering composition according to one of claims 1 to 4 with a total bulk density between 0.7 and 1.2 g / cm ³ . 6. masking compound according to one of claims 1 to 5, in which component B consists of expanded vermiculite. 7. masking compound according to one of claims 1 to 5, in which component B consists of expanded pearlite. 8. masking compound according to one of claims 1 to 7, in which Component A consists of low-iron raw magnesite.