RU2197446C2 - Ceramic mass for manufacture of ceramic brick - Google Patents

Abstract

FIELD: mortars for manufacture of ceramic brick. SUBSTANCE: ceramic mass contains, mass-%: easily fusible clay, 15-24; carbonate silicide zeolite-containing rock, 46-55 and zeolite-containing clay which was activated mechanically preliminarily, 30-39 of the following composition, mass- %: zeolite, 26-36; opal-cristobalite, 3-27; calcite, 0-5; quartz, 1-10; glauconite, 0-4; clay minerals, 20-65. Brick produced from this mass has low volume weight at high heat-insulating properties. Compressive strength of material ranges from 19.6 to 27.1 MPa; volume weight of solid article ranges from 1.23 to 1.37 g/cu cm and volume weight of article with hollowness of 22% ranges from 0.96 to 1.07 g/cu cm. EFFECT: enhanced efficiency. 4 ex

Description

 The invention relates to a technology for producing ceramics, namely, compositions for the production of building ceramic bricks.

 Known ceramic mass to obtain a building element for walls, such as bricks with increased thermal insulation based on ceramic mass of the following composition, wt. %: clay 70-85, diatomaceous flour 15-30 (Economic patent GDR 213914, MKI 4 C 04 B 21/00, 1985).

 The disadvantages of the known ceramic mass include the fact that they use scarce and expensive diatomaceous earth, which makes it economically impractical to use such compositions in the manufacture of ceramic bricks.

 Known ceramic mass for the manufacture of predominantly brick, including, by weight. %: 60-80 - clay, 10-19 - screenings crushing flask and waste alkaline processing flask - the rest (Pat. RF 2110498, IPC 6 04 V 33/00, BI 13, 1998).

 Known ceramic mass, which in order to reduce the firing temperature contains α-alumina with a particle size <10 μm of at least 75% and at least one mineralizer from the group: dolomite, marble, diatomite in the following ratio of components, wt.%: Kaolin 15- 20, refractory clay 20-26, feldspar 15-20, at least one mineralizer from the group: dolomite, marble 0.5-3, diatomite 0.5-3, α-alumina - the rest (A.S. USSR 1313831 , MKI 4 C 04 V 33/26, BI 20, 1987).

A known raw material mixture for the manufacture of ceramic products, mainly building bricks and tiles, which contains clay marl as a multi-carbonate clay, the content of free SiO ₂ in a clay marl with a particle size of 0.05-1.0 mm is not more than 1% in the following the ratio of components, wt.%: clay marl 85-95, cullet 5-15 (Pat. RF 2111189, IPC 6 C 04 B 33/00, BI 14, 1998).

The disadvantages of the known raw material mixtures include the fact that the products obtained from them have a sufficiently high average density (1650-1700 kg / m ³ ) and, as a result, low thermal insulation properties.

 The composition of the same purpose closest to the claimed invention for the totality of features is the composition of the ceramic mass for the manufacture of wall products, including, in wt.%: Low-melting clay 70-75 and carbonate-silicon zeolite-containing rock 25-30 (Pat. RF 2140888, IPC 6 C 04 B 33/00, BI 31, 1999).

 The disadvantages of the known ceramic mass include the fact that products made of it have low thermal insulation characteristics.

 The objective of the invention is to obtain ceramic bricks with high thermal insulation properties. One of the physical and mechanical parameters that affects the improvement of thermal insulation properties is the volumetric weight of the product. The smaller it is, the higher the thermal insulation properties of ceramic bricks.

 EFFECT: reduced bulk density of ceramic bricks.

The specified result in the implementation of the invention is achieved by the fact that the known ceramic mass for the manufacture of ceramic bricks, including low-melting clay and carbonate-siliceous zeolite-containing rock, according to the invention additionally contains clay zeolite-containing mixed mineral composition, containing, wt.%: Zeolite 26-36, opal cristobalite 3-27, calcite 0-5, quartz - 1-10, glauconite 0-4, clay minerals 20-65, previously mechanically activated in the following ratio of components, wt.%:
Fusible clay - 15-24
Carbonate-siliceous zeolite-containing rock - 46-55
Clay zeolite - 30-39
Partial replacement of low-melting clay, previously mechanically activated zeolite-containing clay, in combination with a high content of carbonate-siliceous zeolite-containing rock in the claimed ceramic mass contributes to the intensive formation of silicates of sodium, potassium, calcium and other compounds due to the presence in it of a certain ratio of opal cristobalite (including amorphous silica), calcite, zeolite and clay minerals, which provides a highly porous and strong crystalline structure cheers ceramic shard. This, with sufficient strength of the samples, leads to a noticeable decrease in their bulk weight, which improves thermal insulation properties.

 Comparative analysis with the prototype showed that the claimed ceramic mass for bricks differs from the known new component, namely clay zeolite-containing a certain mineral composition, previously mechanically activated to particle sizes of not more than 100 microns. Therefore, the claimed invention meets the condition of "novelty."

 To verify the conformity of the claimed invention with the condition "inventive step", the applicant conducted a search on patent and scientific and technical sources of information of known solutions that match the distinctive features of the claimed substance from the prototype.

 The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention on the achievement of the technical result is not revealed from the prior art determined by the applicant. Therefore, the claimed invention meets the condition of "inventive step".

 An example confirming the possibility of implementing the method.

 Deposits and occurrences of zeolite-bearing clays of Albian age of the Lower Cretaceous are associated with the Ulyanovsk-Saratov trough and were found in the Ulyanovsk region, the Chuvash Republic, the Republic of Tatarstan (Kushkuvayskoe and Gorodishchenskoe manifestations) and have the following mineral composition, in wt.%: Zeolite 26-36; opal cristobalite 3-27; calcite 0-5; quartz 1-10; glauconite 0-4; clay minerals 20-65.

 In the table. 1 shows the chemical composition of the components used in the inventive ceramic mass.

 Products from the declared ceramic mass are made according to the generally accepted technology of ceramic production by the method of semi-dry pressing or plastic molding.

 The preparation of clay mass in a plastic method involves drying the components, crushing them (on a jaw crusher, a carbonate-silicon zeolite-containing rock to a particle size of less than 1 mm), mechanically activating a zeolite-containing clay on a disk grinder to a particle size of not more than 100 microns, soaking with water in order to obtain normal molding moisture aging during the day.

In a semi-dry method of pressing from moistened clay mass, granules are obtained on a screw mixer with a diameter of 10 mm, the granules are dried at 100-110 ^o C to a moisture content of 9-11%, the granules are crushed and a press powder is obtained, consisting of two fractions of approximately the same quantitative fraction with size particles from 2.5 to 1.25 mm and less than 1.25 mm.

Formation of samples during semi-dry pressing is carried out at a pressure of 20-25 MPa. Samples are dried in a drying chamber at 35-80 ^o C, burned in furnaces at a temperature of 1000-1050 ^o C.

 In the table. 2 shows the composition of the raw mix for the manufacture of ceramic products.

 In the table. 3 shows the physical and mechanical properties of products obtained from the claimed ceramic mass, depending on the composition of the starting components.

 From the above data it follows that the optimal values of physicomechanical parameters of products from the declared ceramic mass are achieved when the ratio of the components given in compositions 2, 3, 4, products based on composition 1 in appearance do not meet the requirements of GOST, and in products based on composition 5 reduced strength.

 In the table. 4 presents the results of studies on the effect on the physical and mechanical properties of products obtained from the declared ceramic mass of compositions 2-4, depending on the introduction of mechanically activated zeolite-containing clay or without mechanical activation.

 As can be seen from the data table. 4, the introduction of the composition of the claimed mixture of mechanically activated zeolite-containing clay leads to a decrease in the bulk density of the finished product by 1, 2 times and somewhat increases the compressive strength.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed invention:
- a tool that performs the claimed ceramic mass in its implementation, is intended for use in industry, namely in the production of building materials;
- the claimed ceramic mass ensures the achievement of the technical result perceived by the applicant, namely, a reduction in the volumetric weight of the products;
- for the claimed ceramic mass in the form as it is described in the independent clause of the claims, the possibility of its preparation using the examples described in the application is confirmed.

 Therefore, the claimed invention will allow the production of bricks with high thermal insulation properties. The volumetric weight of the brick of the claimed ceramic mass is 18-28% less than that of the prototype.

Claims (1)

Ceramic mass for the manufacture of ceramic bricks, including low-melting clay and carbonate-siliceous zeolite-containing rock, characterized in that it additionally contains zeolite-containing clay of mixed mineral composition containing mass. %:
Zeolite - 26-36
Opal Cristobalite - 3-27
Calcite - 0-5
Quartz - 1-10
Glauconite - 0-4
Clay minerals - 20-65
previously mechanically activated in the following ratio of components, wt. %:
Fusible clay - 15-24
Carbonate-siliceous zeolite-containing rock - 46-55
Clay zeolite - 30-39

Images