MD4151C1 - Method for the application of the individual identification tag and individual identification tag - Google Patents

Abstract

The invention refers to the field of identification of material resources, namely to a method for the application of the individual identification tag and an individual identification tag.The method for the application of the individual identification tag consists in the application of an individual pattern of a mixture of ceramic powders (5) of contrast colours, an information coordinate grid (2) with bench marks (3) and a digital code (4), coating of the individual identification tag's (1) surface with a transparent material of glaze with primary quartz content, as well as scanning and recording in the computer storage of the obtained tag (1) with the manufacturing flaws (7) of the transparent material, for example, filamentous fissures. As material of the individual pattern is selected a material with the thermal expansion coefficient equal to the thermal expansion coefficient of the transparent material.

Description

The invention refers to the field of identification of material resources, namely to a method of applying the individual identification mark.

A procedure for identifying the electroconductive object is known, which includes printing an identification number on the object, on which an informational grid of coordinates is mechanically applied, followed by performing a point electric discharge between the object and a vibrating electrode installed with an interstice above it . The image of the grid obtained after downloading is scanned and stored in the computer memory, with the identification of the object achieved by comparing the number and the obtained image of the grid with those previously recorded [1].

The disadvantage of this solution is that the object, executed based on this process, is practically not durable due to oxidation and the appearance of rust on its surface, and is not useful for application in aggressive environments (acids, bases, high temperatures).

The closest solution is an individual identification mark and a process for its formation, which includes the application of an identification element of ultradisperse powders of contrasting colors, its pressing and calcination, as well as the application of a numerical code and an information grid with the at least two reference points, after which the information on a portion of the informational grid is entered into a database [2].

The disadvantage of this solution lies in the fact that the marking does not withstand aggressive environments, therefore it cannot keep the information on its surface for a long time due to the lack of a transparent surface protection layer, the cleaning of which would not present difficulties. Also, failure to comply with a series of requirements regarding the enamelling of the marking surface leads to the appearance of cracks on it. The affected places on the surface of the marking become impure quickly, which reduces the possibilities of identifying the marking.

The problem that the invention solves is the obtaining of markings by covering the surface of the marking with a transparent glaze material with a predominantly quartz content, as well as the application of the process for markings made of integral metal with stains from electric discharges and for markings obtained by agglutination of particles from metal.

The process of applying the individual identification mark, according to the invention, removes the disadvantages mentioned above in that it includes the application of an individual image from a mixture of ceramic dusts of contrasting colors, an information grid of coordinates with landmark points and a code numerically, covering the surface of the individual identification mark with a transparent glaze material with a predominantly quartz content, as well as scanning and recording in the computer memory the mark obtained with the technological defects of the transparent material, for example, filiform cracks. A material with a coefficient of thermal expansion equal to the coefficient of thermal expansion of the transparent material is selected as the material of the individual image. The most prominent particles of the individual image are selected as reference points of the informational coordinate grid. The intersection points of the cracks are selected as reference points of the informational coordinate grid.

The individual identification mark, according to the invention, removes the disadvantages mentioned above in that it contains an individual image made of ceramic dust of contrasting colors, on which an information grid of coordinates with reference points and a numerical code is applied, also the individual identification mark it is covered with a transparent glaze material with a predominantly quartz content.

The result of the invention consists in obtaining markings by covering the surface of the marking with a transparent glaze material with a predominantly quartz content, as well as applying the process for markings made of integral metal with stains from electric discharges and for markings obtained by agglutination of metal particles.

The invention is explained by the drawings in fig. 1-3, which represent:

- fig. 1, the stages of applying the individual identification mark;

- fig. 2, the marking with the informational grid;

- fig. 3, the marking with the landmarks at the intersection of the cracks.

The individual identification mark contains an individual image made of ceramic dust 5 of contrasting colors (fig. 1), on which is applied an information grid of coordinates 2 with reference points 3 and a numerical code 4. The individual identification mark 1 is covered with a transparent material 6 made of glaze with a predominantly quartz content.

The procedure for applying the individual identification mark consists in applying an individual image from a mixture of ceramic dusts 5 of contrasting colors (fig. 1), an information grid of coordinates 2 with reference points 3 and a numerical code 4, covering the surface of the individual identification mark 1 with a transparent material 6 made of glaze with a predominantly quartz content, as well as scanning and recording in the computer memory the mark 1 obtained with the technological defects 7 of the transparent material 6 (fig. 2), for example, cracks filiform, the random nature of which can be easily demonstrated, because it is unrepeatable, the network of filiform cracks being different every time. Quartz is selected according to durability, transparency and resistance to aggressive environments. The most prominent particles of the individual image are selected as reference points 3 of the information coordinate grid 2. The intersection points of the cracks are selected as reference points 3 of the informational coordinate grid 2 (fig. 3). In order to obtain the durability of the transparent material 6 and to avoid the appearance of residual stresses, a material with a coefficient of thermal expansion equal to the coefficient of thermal expansion of the transparent material 6 is selected as the material of the individual image.

Example 1

The nanodispersed red copper oxide (Cu2O) powder with the average particle size of about 200 nm was pressed into an individual identification mark, executed inside the identified object, later with an annealing at a temperature of 800°C. The obtained ceramic has an internal structure with a fine granularity of 1 µm. The ceramic grains are visibly isolated from each other and weakly agglutinated between them. The samples of the individual identification marks, obtained at temperatures of 1000°C and 1100°C, are characterized by larger granules, which are better agglutinated among themselves. Later, on the individual identification mark, obtained at a temperature of 1100°C, a transparent layer of glaze with a predominantly quartz content is poured. According to its composition, the glaze is made of aluminosilicon glass, ensuring protection from impurities, the action of acids and bases, etc. of the surface of the individual identification mark. The glaze covers the marking surface with a layer of 0.2...0.3 mm. The layer with this thickness ensures the protection function and offers the possibility to scan the individual identification mark and the numerical code.

Example 2

A cavity is made inside the individual molybdenum identification mark, the substrate of which has been processed with electric discharges at room temperature. After obtaining more than a hundred spots from electric discharges, the cavity is filled with enriched quartz of fine fraction (silicon dioxide) and alumina, with the addition of dolomite and feldspar, and the entire marking is heated to a temperature of up to 1100°C . After slow cooling, a thin (thickness up to 0.3 mm) transparent layer is formed on the cavity of the individual identification mark, which easily fixes the stains from electric discharges on the surface of the individual identification mark.

Thus, the technology of preserving the surface of the individual identification mark by covering it with a transparent layer of glaze is proposed. Such a marker is able to preserve its informational properties during exploitation in aggressive environments (acidic or basic).

1. MD 3389 G2 2007.08.31

2. MD 4027 C2 2010.03.31

Claims (4)

1. Procedure for applying the individual identification mark, which includes the application of an individual image from a mixture of ceramic dusts of contrasting colors, an information grid of coordinates with landmark points and a numerical code, covering the surface of the individual identification mark with a transparent glaze material with a predominantly quartz content; as the material of the individual image, a material with a coefficient of thermal expansion equal to the coefficient of thermal expansion of the transparent material is selected, as well as scanning and recording in the computer memory the marking obtained with the technological defects of the transparent material, for example, filiform cracks . 2. Method, according to claim 1, in which the most prominent particles of the individual image are selected as reference points of the information coordinate grid. 3. Process, according to claim 1, in which the intersection points of the cracks are selected as reference points of the informational coordinate grid. 4. Individual identification mark, which contains an individual image made of ceramic powders of contrasting colors, on which is applied an information grid of coordinates with reference points and a numerical code, at the same time the individual identification mark is covered with a transparent glaze material with predominantly quartz content.