DE1771152B1 - MELT-CASTED BASIC REFRACTORY MATERIAL - Google Patents

Claims (1)

1 2 The invention relates to a melt-depleted heavy metal oxides, and it is cast, basic stone of high fire resistance is tougher because its melting point rises. Alone through and reducing effect on metallurgical slag - this effect is very much inhibited from the slag attack, especially on steel furnace slag. According to the invention, the fire resistance of the Melt-cast refractory building materials in general 5 stone in the contact area with the slag increased, because mine are state of the art. The reduction in particular consumes the carbides, and they remain so the fused-cast mullite and corundum bricks, the refractory oxides MgO and CaO, which Also mixed with zirconium oxide, they are more fire resistant in the gas without carbides. Proven melting technology. Not only the carbon of the carbides has a reducing In addition to these "acidic" products, there is also the one that has an effect on the heavy metal oxides, but also that Manufacture of "neutral" fused-cast stones from Ca and Mg derived from carbides. known. These are stones based on the building material produced according to the invention thus a great advance in the field of MgO - Cr ₂ O ₃ - Al ₂ O ₃ - SiO ₂ lining of steel furnaces, e.g. B. the oxygen and the like 15 blown converter and electric furnace Likewise, the melting of lime in the light furnace belongs to the progress in rotating, oxygen too State of the art. But the blown kaldo converter necessary for this, in which it is still used today Melting temperature is very high and melting the best known refractory building materials is not yet therefore expensive. One is therefore content to work satisfactorily in many cases. with the melting of an intermediate product, which is The production of such basic, fused-cast products after crushing stone stones in a known manner, this invention simplifies mixed is processed to form shapes. because the proportion of carbides lowers the melting temperature The technique of smelting magnesite draws considerably on it. Burned dolomite have a usually before a molten intermediates melting point at about 220O ⁰ C. To produce mixtures from product, which is also ceramically processed further than around 70% CaO and 30 ° / ₀ CaC ₂ melt at around. 180O ⁰ C, and at the same level are the melting Ceramic shaped stones, even if they are made from one point of the carbide-containing mixtures with dolomite, molten product were produced, are When the melt of the invention solidifies porous. This is probably one reason why such MAESSEN building material decrease first MgO and CaO, to stones that have what / released from a sintered product 30 to 15 ° ₀ of CaO and MgO are produced köndukt, nen no significant advantages. If the eutectic solidifies, they will bring it too. The basic carbides introduced into the technology are excreted and thus very evenly distributed in the stone made of magnesite and / or dolomite. Manufactured from sintered material by controlling the cooling conditions. gen, ζ. B. by tempering, as is well known, the Fused-cast stones have practically no effect on the formation of crystals. Pores and have a comparatively high heat- These carbides are known to decompose when conductivity, which is why it is so resistant to moisture. However, this can only adversely affect melting. Basic melting occurs on the surface. Melt cast products, cast stones, e.g. B. made of dolomite, would only have "outer" surfaces and no "inner" steel furnaces would do well. But it is doubtful whether 40 “ren” because they have no pores. Therefore, it is easy to make them also made of sintered material that would be superior to fused cast bricks against moisture tarry stones. Known to protect, by adding their outer surfaces to the surface, these have a reducing effect on the tar, oil, plastics and the like against the slag at the steel furnace temperatures. The latter is thus depleted in terms of moisture protection. Thus, the iron oxide becomes tougher and the attack on the bricks produced according to the invention with sufficient material is inhibited. This advantage would be storable, melt-cast, basic stones, e.g. B. from dolomite,
do not exhibit. Patent claims: The invention now adds to the advantages of the melt-cast Products, namely high levels of slag due to the high thermal conductivity and characterized in that it has practically imperceptible porosity, a strongly reduced one of 65 percent by weight CaO and MgO decorative effect by being converted into a basic melting point and up to 35 percent by weight of carbides The cast building material contains Ca and Mg carbides. Calcium and magnesium. 55 2. Building material according to claim 1, characterized The melt-cast stone according to the invention indicates that the ratio of CaO to MgO ■ is thus, next to the "impurities", z. B. SiO _{2 is} between 0.5 and 2.0, and Al ₂ O ₃ , which lower its melting point, 3. Building material according to claim 1 and 2, characterized mainly from CaO - MgO - CaC ₂ - MgC ₂ . The characterized that it has a proportion of Al ₂ O ₃ and Carbides have a reducing effect on the slag. As a result, 60 SiO _{2 has} less than 4 percent by weight.