RU2036248C1 - Method to form decorating cover on piece surface - Google Patents

Abstract

FIELD: decorating pieces production. SUBSTANCE: method provides for mono- or multilayer application of hydrolyzates of metals alcoholates (4, 7 and 8-th groups of Mendelyeev's Table) of 1 - 10 mass % concentration on surface of sample, rotated with speed of 2000 - 7000 turns per minute, with following thermal treatment of sample under temperature of 150 - 1000 C. To produce "Flower" patternhydrilyzate of 3 - 10 mass % concentration is applied with sample speed of rotation of 3000 - 7000 turns per minute. EFFECT: production of water-resistant and heat-resistant strengthened cover, for example, of "Flower" pattern. 5 cl

Description

 The invention relates to the production of decorative coatings on ceramic, glass and metal surfaces and can be used in the manufacture of facing materials used in construction.

 There are various methods of applying patterns on the surface of substrates, including the use of film-forming solutions forming metal oxide films. Compounds such as indium 2-ethylhexenate or cadmium mercatide have been proposed as film-forming solutions.

 There is a method in which these compounds are applied to the surface in the form of solutions or dispersions and then they are subjected to destruction under the influence of active radiation, for example, X-ray [1]. To obtain the desired pattern, the surface is masked before irradiation, thereby obtaining the desired pattern.

 The disadvantages of this method are the increased complexity caused by the use of an additional stage of masking, as well as the significant energy consumption and the danger of the process due to the use of x-ray radiation.

For the formation of decorative coatings as film-forming compositions, the use of metal algolyates is known [2, 3]
The closest to the proposed is a method for producing decorative coatings desired pattern, wherein the glass surface is applied sol-gel metal algolyata then in the right places depending on the pattern of decoration is performed selective etching, and then firing the film at a temperature exceeding 300 ^C. [3 ]
The disadvantage of this method is the use of a laborious and environmentally unsafe etching process.

The proposed method of forming a decorative coating includes the stage of a single or multilayer deposition by centrifugation on a solid surface of a sample of a metal alkoxide hydrolyzate of 1-10 wt. concentration at a sample rotation speed of 2000-7000 rpm and the subsequent heat treatment stage at 150-1000 ^о С.

 When forming a “Flower” pattern by this method, a hydrolyzate with a 3-10% concentration can be applied to the center of the surface of the sample, rotated at a speed of 3000-7000 rpm.

 When forming a mirror coating with the "Flower" pattern, a titanium alkoxide hydrolyzate can be applied to the surface.

 The method can be carried out using metals 4, 7 and 8 of the periodic table of Mendeleev as initial alcoholates.

 Decorative coatings can be applied to the surface of ceramic tiles, glass or metal.

 The proposed method differs from the prototype method in the main stages of the process and their quantitative characteristics.

 The effectiveness and feasibility of the proposed method is influenced by the concentration of metal oxide in the sol-gel film-forming composition. When the concentration of metal oxide is equal to 1-10 wt. a coating with a patterned pattern is formed, and at a concentration of 3-10 wt. a coating with a "Flower" pattern is formed. In this case, a stylized flower with different-sized petals and different colors, varying from the center to the periphery, is obtained on the coating. At a lower concentration (1-3 wt.) The "Flower" pattern is not formed, a pattern in the form of stains or a spotty pattern is formed.

 A large concentration of metal oxide (more than 10 wt.) Leads to the formation of an uneven, non-flowing coating.

 A significant influence on the process is exerted by the rotation speed of the sample, which is selected in the range of 2000–7000 rpm. When the process is carried out at a lower speed (less than 2000 rpm), the pattern is not formed, and at a higher speed (more than 7000 rpm), the film-forming solution is carried away. When forming the "Flower" pattern, the rotation speed is maintained in the range of 3000-7000 rpm.

 The similarity of the pattern with the flower and its symmetry depend on the place of supply of the solution to the surface. A symmetrical pattern resembling a flower is obtained by applying the solution to the center of the surface of the rotated sample.

 Patterned coating can be single-layer or multi-layer (2 or 3 layer). When applying a single-layer coating with a thinner film, a rainbow-like image of a flower is formed, and when multi-layer application, rainbow disappears.

Significantly on the quality and strength of heat treatment temperature has an effect that is selected in the range 150-1000 ^{° C,} optimally ^about 350-7000 C.

 At a lower temperature, an unstable coating forms, and at a higher temperature, cracking is observed.

 The proposed method, while maintaining all process conditions, provides a decorative, moisture and heat-resistant, durable coating, for example with the "Flower" pattern, which can be widely used as a facing material.

Claims (5)

1. METHOD FOR FORMING DECORATIVE COATING ON THE SURFACE OF PRODUCTS, including applying a metal alcoholate hydrolyzate solution to a solid surface and heat treating it, characterized in that a single or multilayer metal alkoxide hydrolyzate of 1 10 wt.% Concentration is applied to the sample surface at a rotation speed 2000 7000 rpm with subsequent heat treatment of the sample at 150 1000 ^o C.  2. The method according to claim 1, characterized in that when forming a decorative coating with a "Flower" pattern, the hydrolyzate with 3 to 10 wt.% Is applied to the center of the surface of the sample rotating at a speed of 3000 7000 rpm.  3. The method according to claim 2, characterized in that when forming a mirror coating with a pattern of "Flower" on the surface of the applied hydrolyzate of titanium alkoxide.  4. The method according to claim 1, characterized in that hydrolysates of metals 4, 7 and 8 of the periodic table are applied to the surface.  5. The method according to claim 1, characterized in that the coating is applied to the surface of ceramic tiles, glass, metal.