PL233204B1 - Method for producing bricks - Google Patents

Description

Description of the invention

The subject of the invention is a method of producing bricks with self-cleaning properties, which consists in firing clay at high temperatures.

Nanocrystalline titanium dioxide is a compound commonly used in many industries, in particular due to its excellent hiding and optical properties. An interesting application of this raw material is the use of it as an additive to building materials, including concrete or cement mortars, where its photocatalytic properties are used. Modification of building materials with titanium dioxide allows, among others, the reduction of harmful pollutants present in the air, such as NOx or SO2. The incorporation of photocatalytically active TiO2 into the composition of the building material also allows the removal of organic impurities covering the material surfaces.

From the Polish patent application P.406503 there is known a method of obtaining self-cleaning cement mortars containing titanium dioxide, which is characterized by the fact that during the preparation of cement mortar, titanium dioxide with an anatase structure, modified with carbon and nitrogen, in an amount from 1 to 10% by mass in relation to the mass of cement. Modification of titanium dioxide with carbon and nitrogen consists in annealing titanium dioxide in ammonia and n-hexane vapors at a temperature of 100 ° C to 600 ° C for 1 hour, with gaseous ammonia being passed through a scrubber with n-hexane at a rate of 200 ml / a minute. From the patent application CN103290753 a solution is known for water-permeable bricks. The bricks consist of two parts, a concrete bottom and a mortar layer. The concrete layer consists of: 20-40 parts of cement, 10-20 parts of water, 5-15 parts of ash, 50-65 parts of recycled aggregate, 50-65 parts of natural aggregate, 65-85 parts of sand and 0.05-0 , 2 parts water-reducing reagent. The mortar part consists of 70-100 parts of cement, 5-20 parts of Nano-TiO2, 30-60 parts of water, 200-400 parts of sand and 0.1-1.0 parts of reducing agent. The obtained bricks have very good mechanical properties. The use of such bricks allows water to penetrate into the groundwater, in addition, they have self-cleaning properties and remove organic stains from the surface.

From the application CN103104080 there is known a solution in which bricks are covered with a thin film of TiO2 which penetrates into their pores. Thanks to this, bricks gain superhydrophilicity, self-cleaning and anti-fouling properties.

The application CN101417892 describes a ceramic glaze with self-cleaning properties, which contains 46% titanium slag, chemically from 0.24 to 0.36% TiO2, thanks to which it has superhydrophilic and self-cleaning properties.

The technology of brick production is based on the clay firing process, most often in the temperature range of 850-1000 ° C. Thermal treatment of the material, i.e. firing, determines the physical properties of the final form of the photocatalyst added to the clay. The photocatalytic activity of TiO2 is strongly determined by the physical properties of the photocatalyst. The crystallographic form of TO2 with the highest photocatalytic activity is anatase. The transformation of anatase into rutile takes place at a temperature above 700 ° C, however, it has been shown that the presence of certain oxides, such as SiO2 and Al2O3, may favor the increase of the transformation temperature, and these oxides are the main components of clay [A. Nilchi, S. Janitabar-Darzi, A.R. Mahjoub, S. Rasouli-Garmarodi, New TiO2 / SiO2 nanocomposites Phase transformations and photocatalytic studies, Colloids and Surfaces A: Physicochem. Eng. Aspects 361 (2010) 25-30; J. Zhao, Y. Wang, X. Lou, K. Li, Z. Li, W. Huang, Effects of adding AI2O3 on the crystal structure of TO2 and the performance of Pd-based catalysts supported on the composite for the total oxidation of ethanol, Inorganica Chimica Acta 405 (2013) 395-399].

Surprisingly, it has been found that some forms of TiO2, especially those modified with nitrogen, can impart self-cleaning properties to bricks by mass modification.

The method of producing bricks according to the invention, consisting in firing clay at a temperature of 950 ° C, is characterized in that nitrogen-modified titanium dioxide is added to the clay in an amount of 5 to 15% by weight in relation to the weight of the clay, to obtain bricks with self-cleaning properties. Titanium dioxide is modified with nitrogen by annealing at 100 ° C in ammonia vapors. Titanium dioxide contained in bricks after exposure to UV-Vis radiation for 50 hours reduces the contact angle of the brick surface covered with oleic acid by approx. 20-45 °.

The method according to the invention is illustrated in the working examples, with examples 1-3 being comparative examples.

PL 233 204 B1

P r z k ł a d 1

This example shows the photoactivity of brick obtained by firing THB commercial clay, manufacturer AS Keramik, Czech Republic, at 950 ° C in an air atmosphere. The self-cleaning properties were tested by examining the distribution of fat applied to the surface. 50 μΙ of oleic acid was applied to the surface of the obtained brick, and then a drop of water, and the contact angle was measured, which was 54.1 °. Then the material was irradiated with UV-Vis radiation at the intensity 110 m ² / W UV, 5 m ² / W Vis. After 50 hours of irradiation, a drop of water was again applied to the surface of the oleic acid brick and the contact angle was measured, which was 52.2 °. The lack of significant changes in the contact angle indicates the continuous presence of oleic acid on the brick surface.

P r z k ł a d 2

This example shows the photoactivity of commercial TiO2 modified brick obtained by firing commercial clay THB, manufacturer AS Keramik, Czech Republic at 950 ° C in air with 10% by weight addition of TiO2 (P25, Evonik, Germany, 25% rutile, 75% anatase ). 50 µl of oleic acid was applied to the surface of the obtained commercially modified TO2 brick, followed by a drop of water, and the contact angle was measured, which was 54.8 °. Then the material was irradiated with UV-Vis radiation at the intensity 110 m ² / W UV, 5 m ² / W Vis. After 50 hours of irradiation, a drop of water was again applied to the surface of the oleic acid and the contact angle was measured, which was 35.6 °. Visible changes in the dimension of the contact angle show that the oleic acid has been partially decomposed.

P r z k ł a d 3

This example shows the photoactivity of TO2 modified nanocrystalline brick obtained by firing THB commercial clay, manufacturer AS Keramik, Czech Republic, at a temperature of 950 ° C in air with 10% by weight TiO2 addition. The used TO2 was a commercial TO2 obtained from the Grupa Azoty Chemical Plant, Poland, the material was dried at a temperature of 100 ° C. On the surface of the obtained modified nanocrystalline TO2 brick, 50 μl of oleic acid was applied, followed by a drop of water, and the contact angle was measured, which was 55.5 °. Then the material was irradiated with UV-Vis radiation at the intensity 110 m ² / W UV, 5 m ² / W Vis. After 50 hours of irradiation, a drop of water was applied to the surface of the oleic acid again, and the contact angle was measured to be 25.4 °. Visible changes in the dimension of the contact angle show that the oleic acid has been partially decomposed.

P r z k ł a d 4

This example shows the photoactivity of TiO2 modified brick obtained by firing THB commercial clay, manufacturer AS Keramik, Czech Republic, at 950 ° C in an air atmosphere with 5 wt% TiO2 addition. TO2-N, used for modification, was obtained by heating in a furnace in an ammonia atmosphere for 1.5 hours at 100 ° C of commercial TiO2, mainly anatase-like (Grupa Azoty, Zakłady Chemiczne Police SA, Poland). 50 μl of oleic acid was applied to the surface of the obtained modified TO2-N brick, followed by a drop of water, and the contact angle was measured, which was 52.5 °. Then the material was irradiated with UV-Vis radiation at the intensity 110 m ² / W UV, 5 m ² / W Vis. After 50 hours of irradiation, a drop of water was again applied to the surface of the oleic acid and the contact angle was measured, which was 32.7.5 °. Visible changes in the dimension of the contact angle show that the oleic acid has been partially decomposed.

P r z k ł a d 5

This example shows the photoactivity of TiO2 modified brick obtained by firing THB commercial clay, manufacturer AS Keramik, Czech Republic, at 950 ° C in an air atmosphere with 10 wt% TiO2 addition. TO2-N, used for modification, was obtained by heating in a furnace in an ammonia atmosphere for 1.5 hours at 100 ° C of commercial TiO2, mainly anatase-like (Grupa Azoty, Zakłady Chemiczne Police SA, Poland). 50 μl of oleic acid was applied to the surface of the obtained modified TO2-N brick, followed by a drop of water, and the contact angle was measured, which was 57.7 °. Then the material was irradiated with UV-Vis radiation at the intensity 110 m ² / W UV, 5 m ² / W Vis. After 50 hours of irradiation, a drop of water was again applied to the surface of the oleic acid and the contact angle was measured, which was 15.5 °. Visible changes in the dimension of the contact angle show that oleic acid has been almost completely degraded.

PL 233 204 B1

P r z k ł a d 6

This example shows the photoactivity of TiO2 modified brick obtained by firing THB commercial clay, manufacturer AS Keramik, Czech Republic, at 950 ° C in an air atmosphere with 15 wt% TiO2 addition. TO2-N, used for modification, was obtained by heating in a furnace in an ammonia atmosphere for 1.5 hours at 100 ° C of commercial TiO2, mainly anatase-like (Grupa Azoty, Zakłady Chemiczne Police SA, Poland). 50 µl of oleic acid was applied to the surface of the obtained modified TO2-N brick, followed by a drop of water, and the contact angle was measured, which was 54.5 °. Then the material was irradiated with UV-Vis radiation at the intensity 110 m ² / W UV, 5 m ² / W Vis. After 50 hours of irradiation, a drop of water was again applied to the surface of the oleic acid and the contact angle was measured, which was 10.6 °. Visible changes in the dimension of the contact angle show that oleic acid has been almost completely degraded.

Claims (2)

Patent claims 1. A method for producing bricks with self-cleaning properties by firing clay at a temperature of 950 ° C, characterized in that nitrogen-modified titanium dioxide is added to the clay in an amount of 5 to 15% by weight in relation to the weight of the clay. 2. The method according to p. The method of claim 1, wherein the titanium dioxide is modified with nitrogen by annealing at 100 ° C in ammonia vapors.