PL235630B1 - Method for producing moulded periclase-perovskite-spinel products for the refractory lining - Google Patents

Description

Description of the invention The subject of the invention is a method of producing periclase-perovskite-spinel molded products for refractory lining used in the metallurgical industry for the purpose of building brickworking devices. thermal systems operating at high temperatures, among others in the cement, lime, chemical, ceramic and other industries.

There is a commonly known method of producing basic products based on sintered and fused magnesia and / or spinels and coal intended for brickwork in industrial devices. heating systems working, among others, in the cement, lime, glass, steel and other industries. Refractory products are exposed to to the effects of high temperatures, which exceed 1600 ° C, sudden temperature changes and strong corrosive effects. For a long period of time, magnesia-chromite products were installed in thermal facilities, but their use was limited due to the formation of Toxic chromium (VI) in the work environment. An alternative? states? magnesia-carbon, magnesia-spinel and magnesia-zirconium products, with the thermal expansion coefficient of MgO, C and MgAl2O4 significantly increasing differ. In addition, coal is characterized by very little ?? wetness? through liquid metal and slag. The introduction to magnesia products, inter alia, C, MgAl2O4 and ZrO2 improves their resistance? corrosive and allows to obtain a favorable microstructure determining the resistance to product to sudden changes in temperature. An example could be specific spinel introduced into articles in various forms: by the addition of Al2O3 - formation of spinel in situ will be as previously sintered or melted and introduced in the step of mixing the ingredients.

There is known from the US patent description US4954463 a method for the production of magnesia-spinel products, where spinel (MgAl2O4) is formed in situ. Matter? you get from magnesite in an amount of 65-99% by weight with an MgO content of not less than 92% by mass and calcined bauxite in the amount of 35-1% by mass with Al2O3 content not less than 83% by mass and the SiO2 content not greater than 7% by mass, and the content of ?? silica in the mixture can not exceed? 4% by mass. The resulting mixture is formed into shapes that burn out in the temperature range 1480-1760 ° C.

On the other hand, the US patent US5565390 discloses a method of obtaining a refractory material based on MgO, which contains 3-23% by weight of the previously synthesized MgAl2O4 spinel with an Al2O3 content of 75-95% by weight. Spinel reacts with Al2O3 and CaO to form relatively low melting calcium aluminates. This limits its use as, for example, a refractory component in the sintering zone of a rotary kiln for the production of Portland clinker.

US Patent No. 6261983 B1 discloses a method of producing magnesia-spinel materials with an extended working time, good thermomechanical properties and with a reduced tendency to react with calcium oxide present in the working environment. It consists in the course of a slow or delayed reaction of spinel, calcium oxide and zirconium oxide, where the zirconium oxide reacts with the calcium oxide present in the reaction mixture to form calcium zirconate, and the addition of ZrO2 eliminates the problems related to the presence of spinel in refractory materials.

The Polish patent specification PL 212579 B1 describes a method of producing a compact highly refractory material from dolomite with a maximum content of admixtures of 2%, being a source of CaO and MgO, and zirconium oxide. The firing process is carried out in one or two stages in the temperature range 1200 to 1600 ° C. The material obtained in this way consists of mainly from MgO and CaZrO3 and is characterized by it advantageous microstructure?

From the publication: E.? Nie ?ek et al., Pp. "Refractory materials from the four-component CaO system - MgO-Al2O3-ZrO2", CERAMIC MATERIALS, 65, 4, (2013), 476-480 there is a known method of producing the main ingredients are magnesium oxide (MgO) in an amount of 66% -85% vol. and calcium zirconate (CaZrO3) in an amount of 15% and 30% vol. and calcium monoaluminate (CaAl2O4) in an amount of 0-4 vol%, magnesium aluminum spinel (MgAl2O4) in an amount, 0% -4 vol% and calcium aluminum cement in an amount 0-4 vol.% These compounds were ground to a particle size median distribution of d0.5 from 2.9 to 33.8 mm and dry homogenized for 2 h in a zirconium vibrating mill. Next, rolls with dimensions 50x50 mm were formed from the mixture under a pressure of 45 MPa, which were fired at a temperature of 1580 ° C, keeping them at this temperature for 10 hours, and then cooled with a furnace, It is possible to produce these materials in a single-stage sintering process at the above temperature.

The essence of the method of producing periclase-perovskite-spinel products for refractory linings, containing magnesium oxide, calcium zirconate and magnesium-aluminum spinel, consisting in forming shapes from dry homogenized the mass that gives up one-stage heat treatment, consists in the fact that sintered and / or melted magnesia clinker with MgO content over 95% by mass in grain fractions ranging from 0 to 6 mm in an amount of 50-96% by mass mixes si? with the previously synthesized path sintering and / or melting with calcium zirconate in grain fractions ranging from 0 to 5 mm in an amount of 1-30% by weight, with a sintered and / or melted synthetic spinel containing MgAl2O4o as the main phase component grain size up to 5 mm in an amount of 1-20% by weight and with a binding agent introduced in an amount of 0 to 5% by weight, with the thickest fractions of magnesia clinker first mixed? with coarse calcium zirconate and synthetic spinel, then introduces part ??? Binding agent and the rest of the part ??? fine-grained magnesia clinker, and then the remaining ?? part ??? Binding agent, and then the resulting mass is formed into a the fittings are under pressure of 80-200 MPa, using triple deaeration, which is dried and then subjected to a heat treatment carried out in the temperature range of 1600-1700 ° C.

As a binding agent, sulphite ug, sulphite or dextrin.

By the method according to the invention, products with controlled porosity ranging from 2 to 20%, which depends on the amount of individual components of the mass and their grain size. In addition, as a result of fire fusion, a material with very good resistance to thermal shocks and thermomechanical properties, as well as favorable performance characteristics related to its increased resistance to resistance? corrosive to the action of high temperature and chemical factors occurring during the operation of the lining of the furnace.

P r y k? a d 1. To prepare the fired material in the form of periclase-perovskite-spinel products with a ceramic bond, sintered magnesia clinker was used as aggregate, obtained by roasting magnesite, with MgO content over 97% by weight, in grain fractions ranging from 0 to 4 mm, synthetic sintered calcium zirconate in grain fractions ranging from 1 to 3 mm, melted MgAl2O4 spinel in grain fractions with range from 0 to 3 mm and sulfite ug. The mass on the material consisted of 94% by weight of magnesia clinker, 4% by weight of calcium zirconate, 2% by weight of spinel, which is 100% aggregate in total, and as a binding agent 3% of the aggregate in the amount of sulphite slurry. In the first stage of mass preparation, the thickest fractions of magnesia aggregate are mixed? dry with coarse sintered calcium zirconate and melted spinel, then introduced into for the mixture of sulfite in the amount of 2/3 of the whole and the remainder quantity ?? fine-grained magnesia aggregate, and then the remaining ?? quantity ?? sulphite slurry. The products produced by the method according to the invention were formed on a hydraulic press under a pressure of 120 MPa, applying three times deaeration, and then dried and fired at a temperature of 1600 ° C for 10 hours.

The products produced by the above method were characterized by with the properties given in the table at the end of the description.

P r y k? ad 2. The following aggregates were used to prepare the fired material in the form of periclase-perovskite-spinel products with a ceramic bond: sintered magnesia clinker with a MgO content over 97% by weight in grain fractions from the range 0 to 4 mm, fused calcium zirconate in the grains ranging from 1 to 3 mm, fused spinel in the grains ranging from 0 to 3 mm and as a sulfite binder. The mass on the material consisted of from magnesia clinker, grain size 0-4 mm in the amount of 96% by weight, from calcium zirconate with grain size of 1-3 mm in the amount of 2% by weight, from spinel grain size 0-4 mm in the amount of 2% by weight, is with a total of 100% aggregate and 3% of the aggregate slurry in relation to the aggregate weight. In the first stage of mass preparation, the thickest fractions of magnesia clinker are mixed? dry with coarse calcium zirconate fractions and with spinel, then introduced 2/3 of the total amount of sulfite and the remaining fine-grained fractions of magnesia clinker, and then the remainder of the mixture quantity ?? sulphite slurry. The products according to the invention were formed on a hydraulic press under a pressure of 120 MPa using three times deaeration, then dried and fired at a temperature of 1600 ° C for 10 hours.

The products produced by the method according to the invention were characterized by with the properties given in the table at the end of the description.

P r y k? ad 3. To prepare the fired material in the form of periclase-perovskite-spinel products with a ceramic bond, sintered magnesia clinker with MgO content over 97% by weight in grain fractions ranging from 0 to 3 mm, sintered zirconate calcium in the grain fractions ranging from 0.5 to 4 mm, fused spinel in the grain fractions ranging from 0.063 to 0.1 mm and µg of sulfite. The mass for the material consists of from magnesia clinker, grain size 0-3 mm in the amount of 79% by weight, from calcium zirconate with grain size 0.5-4 mm in the amount of 16% by weight, from spinel grain size 0.063-0.1 mm in the amount 5% by mass, constituting in total 100% aggregate and sulphite slag in the amount of 3% in relation to the aggregate mass. In the first stage of mass preparation, the thickest fractions of magnesia aggregate are mixed? dry with coarse calcium zirconate, then introduced to a mixture of sulfite in an amount of up to 2% and the remaining fine-grained fractions of magnesia aggregate and melted spinel, and finally the remaining quantity ?? sulphite slurry. The products produced by the method according to the invention were formed on a hydraulic press at a pressure of 120 MPa, applying three times deaeration, and then dried and fired at a temperature of 1600 ° C for 10 hours.

The products produced by the method according to the invention were characterized by with the properties given in the table at the end of the description.

P r y k? ad 4. To prepare the fired material in the form of periclase-perovskite-spinel products with a ceramic bond, sintered magnesia clinker with MgO content over 97% by weight in grain fractions ranging from 0 to 3 mm, melted spinel in grain fractions ranging from 0.5 to 4 mm, sintered calcium zirconate in grain fractions ranging from 0.063 to 0.1 mm and µg of sulfite. The mass for the material consists of 80% by weight of magnesia clinker, 13% by weight of spinel, 7% by weight of calcium zirconate, which is 100% aggregate in total, and 3% of sulphite slurry % by weight of the aggregate. In the first stage of mass preparation, the thickest fractions of magnesia clinker are mixed? dry with coarse spinel, then introduced to a mixture of sulfite up to 2% and the remaining fine-grained fractions of magnesia clinker and fine-grained calcium zirconate, and finally the remaining quantity ?? sulphite slurry. The products produced by the method according to the invention were formed on a hydraulic press at a pressure of 120 MPa, applying three times deaeration, and then dried and fired at a temperature of 1600 ° C for 10 hours.

The products produced by the method according to the invention were characterized by with the properties given in the table at the end of the description.

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Claims (1)

The method of producing periclase-perovskite-spinel products for refractory linings, containing magnesium oxide, calcium zirconate and magnesium-aluminum spinel, consisting in forming shapes from dry homogenized mass, which is subjected to one-stage heat treatment, characterized in that sintered and / or melted magnesia clinker with MgO content over 95% by mass in grain fractions ranging from 0 to 6 mm in an amount of 50-96% by mass is mixed ? with the previously synthesized path sintering and / or melting with calcium zirconate in grain fractions ranging from 0 to 5 mm in an amount of 1-30% by weight, with a sintered and / or melted synthetic spinel containing MgAI2O4 as the main phase component with a particle size of up to 5 mm in an amount of 1-20% by weight and with a binding agent introduced in an amount of from 0 to 5% by weight, the coarsest fractions of magnesia clinker first mixed together with coarse calcium zirconate and synthetic spinel, then introduces part ??? Binding agent and the rest of the part ??? fine-grained magnesia clinker, and then the remaining ?? part ??? Binding agent, and then the resulting mass is formed into a the fittings are under pressure of 80-200 MPa, using triple deaeration, which is dried and then subjected to a heat treatment carried out in the temperature range of 1600-1700 ° C. The method according to p. The method of claim 1, wherein the binder is? sulphite ug, sulphite or dextrin. . . Don't show this again