SU836215A1 - Method of producing multicolour image on surface of metals and semiconductors - Google Patents

Description

provides for the possibility of obtaining a multicolor image with one metal noMoujbro.

In addition, the image is achieved only by multilayered component carrying, so its acquisition is multioperational. To implement the method, it is necessary to remove the overlying layers, which makes it technologically cumbersome and leads to metal loss. Each layer requires an individual treatment — its own mode of oxidation, which makes it necessary to adjust the furnace every time to a given temperature strictly limited by the lower and upper limits. The upper limit of the processing temperature of each layer is limited, which artificially reduces the performance of the method.

The indicated disadvantages are eliminated in the invented method, the purpose of which is to simplify and speed up the process of obtaining a multi-color image.

This goal is achieved by the fact that, before oxidation on the surface of metals and semiconductors, they create areas with varying degrees of chemical activity. This results in the fact that during the subsequent oxidation a film of different thickness is obtained at different sites due to the fact that they are oxidized at different speeds, and the different film thickness provides a different shade.

Plots with varying degrees of chemical activity on the surface of the Sample can be created: chemical heat treatment, deformation by irradiation, various methods of mechanical surface treatment with various degrees of its purity, chemical or electrochemical treatment, for example, hydrogen treatment, applying a layer of various metals.

Example 1. Different sections of the surface of iron samples in the form of a disk 5 mm thick and 25 mm in diameter are subjected to various machining: half of the sample is scribbled on emery paper 1, the other half is polished with a diamond paste to a mirror finish. ka After oxidation: on csi xyxe at a temperature on differently treated areas of the sample surface, oxide films of different coloration are formed.

EXAMPLE. On the surface of copper specimens 50x20x1 mm in size, deformed portions are created in the form of letters, stripes and other signs. Upon subsequent oxidation, these marks released on the surface of the sample acquire interference coloration, which differs from

Background - colors tint on non-deformed areas of metal.

Example 3. Half of the copper samples 50x20x1 mm in size are electrolytically hydrogenated by immersion in a 0.5% aqueous solution of sodium rulphate. At a current density of i5 for 1 h. When the sample is subsequently oxidized in air, its hydrogenated and non-hardened halves oxidize at different rates, as a result of which different colors of tread appear on them. For example, when the oxidation temperature is 275 ° C in 60 seconds, the yellow film forms a yellow oxide film and is violet on the hydrogenated one. .

Example 4. On the surface of iron and nickel plates with dimensions of 20x20x1 mm in a vacuum of mercury. Copper and nickel films are deposited with a thickness of 2000 A in the form of various geometric shapes. The obtained samples are oxidized in air at a temperature for 1-5 minutes. As a result, the difference in oxidation rates and colors of the oxides of conjugated metals gives multicolor images.

The described method of obtaining multi-color images is based on the use of the differential interference effect of the oxidation of me-. tal and semi-tenor having areas with different chemical activities and, consequently, different rates of oxidation, and has significant advantages over existing methods. In contrast to all existing methods, multicolor images can be obtained using only one metal. There is no need to apply a layer of metal on the product and then remove them at specified sites, which significantly simplifies the process technology and leads to savings of scarce metals. No need to change the modes of oxidation - multi-color pattern Formed at any temperature: from the appearance of colors of tinge to the melting of metals. Since the oxidation temperature in the described method is not a limiting factor, the ability to control the speed of the process and increase its productivity significantly expands.

Claims (7)

1. A method of obtaining a multi-color image on the surface of metals and semiconductors, which consists in the fact that in its various sections 5 a film of different colors is produced by thermal oxidation, characterized in that, in order to simplify and speed up the process, before oxidizing on the surface, they create areas with varying degrees of chemical activity4 2. The method according to p. 1, 6 t l and h y and with the fact that areas with varying degrees of chemical activity create a chemical-thermal treatment. 3. Method according to n.l, about tl and h and y and so that areas with varying degrees of chemical activity are created by deformation. 4. The method according to claim 1, wherein the areas with varying degrees of chemical activity are created by irradiation. 5. The method according to claim 1, which is based on the fact that areas with a separate degree of personal chemical activity are created by mechanical osr. 6. Method. According to paragraph 1 of tl and h and y and the fact that areas with different chemical activity compose a chemical or electrochemical route such as hydrogen. 7. Splash pop.1, I am different from the fact that the areas with different chemical activity by applying different kytalls. . . Sources of information taken into account in the examination. 1. Authors Certificate of USSR 299385, cl. B 05 D 5/06, 1969. 2, USSR Copyright Certificate 339444, cl. B 44 D 5/00, 1971.