RU2029795C1 - Ornamental covering application method - Google Patents

Abstract

FIELD: application of covering. SUBSTANCE: method involves providing vacuum electric arc deposition of metal in oxygen-containing medium with the usage of masks having different thickness, with space between mask and object surface to be treated being varied; applying negative adjustable potential to current conducting mask or producing DC or ac magnetic field in the zone adjacent to object with mask made from magnetically soft material. In case DC or ac magnetic field is used, mask is positioned in front of object or behind it, if object is made from dielectric or paramagnetic material. Permanent magnets may be used as masks. EFFECT: wider operational capabilities in obtaining polychromatic images with masks of similar configuration. 5 cl, 1 tbl

Description

 The invention relates to the application of decorative coatings by ion-plasma methods, in particular by an electric arc method, mainly for obtaining multi-color images.

 A known method for producing decorative multicolor coatings by vacuum electric arc deposition in an oxygen-containing medium, according to which the reference voltage is connected to the product to obtain a color gamut at least at two points. However, the method is applicable only to products from electrically conductive materials, does not allow to obtain contrasting color images, and has limited ability to obtain color gamut images.

 A known method of obtaining a graphical image by ion-plasma treatment of the surface of the product in vacuum using ion sources using adjacent thin masks of metals or photoresists (prototype). The disadvantage of this method is the limited ability to obtain multi-color images.

 The purpose of the invention is the expansion of the technological capabilities of the ion-plasma method to create a color gamut of a decorative coating, mainly when obtaining a multi-color image, and on objects from any materials.

 This goal is achieved by the fact that in the method of ion-plasma surface treatment of the product using a mask, a vacuum electric arc deposition of metal in an oxygen-containing medium is used to obtain a graphic image and the thickness of the mask and the gap between the mask and the surface of the object are controlled depending on the desired color gamut of the image. To further expand the technological possibilities of changing the color gamut, the mask is made of electrically conductive material and a negative potential of adjustable magnitude is applied to it in the course of coating deposition, or a mask is made of magnetically soft material and the object with the mask is placed in the zone of exposure to a constant or alternating magnetic field, or when applied coatings on products made of dielectrics or paramagnetic materials of a mask under electric potential or in a magnetized state oyanii, placed over the object surface.

 A comparative analysis showed that the proposed technical solution, in comparison with the known one, meets the patentability criteria, since the totality of the claimed features was not found in this and related fields of science and technology to solve the problem. It should also be noted that the achieved result can be realized only by the totality of the declared features.

PRI me R. A sample in the form of a ceramic plate with a suitable mask is placed in the NNV-6.6-I1 vacuum electric arc deposition unit. The process is conducted in two stages. At the first stage, a nitrogen-based two-stage gas discharge is processed at an arc current of 120 A, and then an evaporator with a titanium cathode is turned on and the coatings are deposited in an oxygen atmosphere at a pressure of 5 × 10 ^-3 mm Hg. at an arc current of 70 A for 2 minutes According to this technological scheme, 9 experiments are carried out under various conditions of use of the mask. After coating, a visual assessment is made of the type of coating, in particular the width of the color zone of the image border and the number of primary colors in this zone. The experimental results, depending on the characteristics of the mask are presented in the table.

 A comparative analysis of the results shows that by changing the characteristics of the mask, you can get a different color scheme of the coating on the border of the image.

 Thus, the proposed method allows to obtain, using the same mask configuration, different color schemes - the color gamut of the image.

Claims (5)

 1. METHOD FOR APPLYING DECORATIVE COATINGS, including placing masks and articles with an adjustable gap between them in a vacuum chamber, generating a flow of sprayed material and depositing a coating on the product in the form of a pattern of a given configuration, characterized in that a metal vapor stream is generated by a vacuum-arc method in an oxygen-containing plasma-forming medium, and the mask is selected with a thickness that, when placed with the selected gap relative to the product, changes the color gamut of the picture and the size change of fragments in the coating pattern.  2. The method according to claim 1, characterized in that the mask is made of an electrically conductive material and a negative adjustable potential is applied to it.  3. The method according to claim 1, characterized in that the mask is made of soft magnetic material and the product with the mask is located in the magnetic field.  4. The method according to claim 1, characterized in that as the masks using permanent magnets.  5. The method according to claims 2 to 4, characterized in that when applying coatings on products of a dielectric material or paramagnet, the mask is placed on the non-working side of the product.

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