SU876608A1 - Charge for making packing linings of thermal sets - Google Patents

Description

The invention relates to a charge for the manufacture of printed linings of thermal units for melting non-ferrous and ferrous metals. The known charge for the manufacture of linings, including quartzite, calcium oxide and silicon carbide fl. However, the lining of the above ones is highly wetted and actively interacts with the main slag. Closest to the proposed is the charge for the manufacture of fire stops, including printed linings, including slag of aluminothermic production of metallic chromium and refractory clay 2. The main advantage of this composition of the charge is the possibility of obtaining high-quality high-aluminous products. When this is disposed of with a significant amount of slag production of metallic chromium. However, the indicated composition of the charge is characterized by a sufficiently high wettability with different compositions of slags and metals. The purpose of the invention is to increase the thermal stability and decrease the degree of wettability by molten metals and slags. The goal is achieved by the fact that the charge for the manufacture of printed linings of thermal units, including slag from aluminothermic production of chromium metal and refractory clay, additionally contains silicon carbide in the following ratio of components, wt.%: 4.0-10.0 Refractory clay 5.0- 20.0 Silicon carbide Slag of aluminothermic production of metalOlastic chromium Slag must meet the following chemical composition,%: A1-0 75.080, 0, CaO 10.0-16.0, C G7, 0-10, O, MgO 0, 5-1.5, SiO2 O, 2-0.5. According to the grain composition, it is advisable to use a donkey with a grain size of 3-0 mm, but it should be such as to ensure maximum packing of the grains of the whole mass. Silicon carbide provides the highest mass properties when injected with a fraction of less than 0.1 mm. Moisturizing the mixture is possible with water, sulphite-alcohol bardy and other entrapers.

The manufacture of linings from ramming mass is possible by all conventional methods: manual with mechanized packing, compaction on vibrating tables, etc.

Products made of the refractory mass of the recommended composition, after firing at 1400s, are characterized by the following properties; Porosity is open,% 20.0-26.9 Each surface with porosity, g / cm 2.28-2.38 Strength, in compression, kgf / cm 206-417 Linear growth,% 1.9-2.5 Refractoriness , ° С more than 1710 Heat resistance,

heatworms - water

more than 15

The main advantages of the proposed composition are high thermal stability and low wettability by molten metals and slags. This is due to the fact that the injected carborundum is poorly wetted by many metals and slags, and is also a very heat-resistant material.

Example 1. Samples were prepared from alumothermal production slag 70%, metallic chromium, carborundum 20% and refractory clay 10%, after calcination at 1400 ° C, they are characterized by the following properties:

Porosity is open,%

Compressive strength, kgf / cm Linear growth,% Refractoriness, C Heat shift thermal stability 1000 ° С - water

Example 2. Samples were prepared from alumothermic production slag 81%, metallic chromium, carborundum 12% and refractory clay 7%, after calcination at 1400 ° C, characterized by the following properties:

Porosity is open,% 23.0 Compressive strength, kgf / cm 290

Linear growth,% Refractoriness, ° C Heat resistance, heat exchanges 1000 ° C - water

Example 3. Samples were prepared from alumothermal production slag 91%, metallic chromium, carborundum 5% and refractory clay 4%, after calcination, they are characterized by the following properties:

Porosity is open,%

26.9

Strength limit / j. during compression, kgf / cm 214 Linear growth,%

2.5 Fire resistance, ° С

more than 1710 Heat resistance, heat exchanges

1000 ° С more than 15

water

The proposed composition of the charge will allow to obtain linings with high heat resistance and low wettability.

Claims (2)

1. Kaynarsky I.S. Carborund - 1st refractories. Metallurgizdat, 1963, with. 197-204. 2.Bron. V.A. High-alumina refractories from slags of metallic chromium production. - refractories, № 2, 1957, p. 14.