DD210931A1 - HIGH-FIBER SOLID PRODUCTS WITH HIGH CORROSION RESISTANCE TO METAL MELTS - Google Patents

Abstract

The invention relates to refractory products with high corrosion resistance to molten metal, in which stored and / or processed media with temperatures up to 1700 degrees C and come into contact with it. The object of the invention is to produce new unsintered refractory linings with increased corrosion resistance to molten media on the basis of inexpensive secondary raw materials available in sufficient quantity. It has been found that refractory products having high corrosion resistance to molten metal are obtained from a by-product of iron titanium alloy production according to d. Aluminothermic processes as aggregate and known binders for the production of refractory products, which are processed according to traditional technologies of concrete technology, ceramics or spray technology. The high fireproof products are suitable for lining or use in pyrotechnic, heat generating or heat storage systems.

Description

Title of the invention

High fireproof products with high corrosion resistance to molten metals

Field of application of the invention

The invention relates to a refractory product, for example for the inner lining of pyrotechnic systems, furnaces, heat generating or heat storage devices in which high-temperature media, such as metal melts, are stored and / or processed or come in contact therewith.

Characteristic of the known technical solutions

It is known that refractory liners with dense structure, ie with low porosity, using primary raw materials such. B, raw chamotte, corundum, sintered magnesite, forsterite, chrome ore, silicon carbide, etc., can be prepared (DE-OS 2716572). It is also known that the primary raw materials as granular additives with various binders, such as "B. Cement (Portland, Tonerdemmelz- and Hochtonerdezemente), water glass and phosphoric acid are used (Petzold A and M. Rohrs: "Concrete for high temperatures", VEB publishing house for construction, Berlin 2.Auflage 1967). Refractory linings that are well above 1500 ⁰ C can be used, must with. partly synthetically produced aggregates are provided. The disadvantage here is the high price of these additives and the low corrosion resistance to molten metals and the associated liquid slags, resulting in only short service life of refractory linings. The attack by

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Corrosion media in the molten state or after melting, as a result of a collection in the solid state, is generally carried out by infiltration of the pores of refractory materials with a subsequent solution. It is also known that titanium carbide-containing refractory linings (DE-OS 270359) increase the corrosion resistance to molten steel · A disadvantage of these deliveries is that they are specially prepared sintered bodies, which have a high degree of finishing and therefore at great expense of material and energy must be produced «

Object of the invention

The aim of the invention is new unsintered HochfeuerfestzuStellungen with high corrosion resistance to molten metal on the basis of inexpensive and.in sufficient amount of available secondary raw materials,

Explanation of the essence of the invention

The invention has for its object to find a suitable secondary raw material, which hydraulically and / or chemically bound, high-refractory, corrosion-resistant materials yields It was found that products with high corrosion resistance to molten metal are obtained from mixtures of 15- 90 wt.% Aluminum Titanium slag, as obtained in the production of iron-titanium alloys by the aluminothermic process, with a composition of 64- 66 % Al ₂ O.

19-22 % TiO ₂

4-7% MgO

3-6% CaO

1.5-3 % Fe ₂ O ₃

0.5-1.5 % SiO ₂

and a grain size of 0 to 6 mm or grain fractions in this range and known hydraulic, chemical and / or ceramic binders for producing refractory linings, which are processed with water to a tamping or spray mixture or moldings and dried or preburned. Optionally, the mixture can be 10 - 70% by weight of further refractory aggregates, such as, for examples.

chamotte, corundum, porsterite and the like, are added.

The materials of the invention can be used up to temperatures of 1700 C.

example 1 Refractory product consisting of

ЗО weight % Al-Ti secondary raw material 3 - 6 mm

4-0 wt. % Al-Ti secondary raw material 0 - 3 mm

10 wt.% Fused alumina 0 -0.2 mm

20 wt.% Alumina cement TZ 70

is processed by traditional methods of concrete technology and formed into stones.

example Refractory product consisting of

30 wt.% Raw chamottes content of Al ₂ O + TiOg greater

Water absorption less than 5%

50% by weight Al-Ti-secondary raw material. 0 -. 3 mm 20% by weight of aluminous cement TZ 70 is processed using traditional methods of concrete technology and formed into bricks.

Example 3

80 wt. % Al-Ti secondary raw material 0 - 3 im

10 wt% fused alumina 0 -. 0.2 mm

10 wt% refractory clay. 0 - 2 mm

0.5 to. 2% sulfite waste liquor

is produced by the manufacturing method of the Keramtechnologie, shaped into bricks, dried and fired at I35O to 1300 ⁰ C,

Example 4

85 wt% Al-Ti secondary raw material. 0 - 2 mm 15% by weight of refractory clay 0 -. 2 mm

are mixed with water to a sprayable mass and applied to existing linings using spray technology.

Claims (2)

Invention sanj 1, refractory products with high corrosion resistance to molten metal, characterized by a mixture of 15-9Q wt. % Aluminium-TitanvSchlacke, as obtained in the production of iron-titanium alloys by the aluminothermic process, having a composition of 64 - 66 % Al ₂ O ₃ 19 - 22 % TiO ₂ 4 - 7% MgO 3 - 6 % CaO 1.5 - 3% Fe ₂ O ₃ 0.5 - 1.5 % SiO ₂ and a grain size of 0 to 6 mm or grain fractions in this range and known binders for the production of refractory linings, which is processed with water to a stamping or spray mixture or to moldings and dried or preburned 2. Fireproof products according to item 1, characterized in that 10 to 70 wt. % Further refractory additives, such as chamotte, corundum, forsterite and the like, are added.