SU1686045A1 - Method of leukosapphire straining - Google Patents

Abstract

The invention relates to the technology of fine processing of natural and synthetic jewelry stones, and more specifically to their coloring, and specifically to the technology of coloring a colorless variety of corundum-leuka-sapphire. used in the jewelry industry. The method allows to reduce the cost of the process and to obtain a blue, blue and orange color for sapphire. To achieve the goal, the sample is heat treated in powdered metal oxide dye at 1125-1400 ° C for 2-10 hours. Nickel oxide is taken as the metal oxide to obtain a blue color, and cobalt oxide is used to obtain a blue color Coloring - strontium oxide. 3 hp ff.

Description

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The invention relates to the technology of fine processing of natural and synthetic gem stones, in particular, to the technology of dyeing a colorless variety of corundum-leucosapphire used in the jewelry industry.

The aim of the invention is to reduce the cost of the process and to obtain a blue, blue and orange color of leucapphire.

Example 1. As a sample, a polished insert of a jewelery piece made of sapphire is taken; The sample is placed in powdered nickel oxide and installed in an alundum crucible in an electric furnace, heated to 1125 ° C, and held for 10 hours. The sample obtained has a color within blue.

parts of the spectrum with color coordinates, 238; Y-0.278.

PRI mme R 2. The sample is similar to the sample of the previous example; The experimental conditions and equipment used are the same, but they are heated to 1400 ° C, and the shutter speed is reduced to 2 hours. The resulting (colored) sample has a color within the blue part of the spectrum with color coordinates X 0.200; , 241.

PRI me R 3. The sample is similar to the samples of the previous examples, but placed in a powder of cobalt oxide. Heated to 1150 ° C, and the shutter speed - 8 hours. The painted sample has a color within the blue part of the spectrum with color coordinates X 0.01; Y 0.165.

PRI me R 4. The sample is similar to the samples of the previous examples and placed in a powder of cobalt oxide. Heating up

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1300 ° C, and the shutter speed And h. The sample acquired a color within the blue part of the spectrum with color coordinates X 0,219; , 207.

PRI me R 5. The sample is similar to the samples of the previous examples, but placed in strontium oxide powder. Heated to 1350 ° C, and the shutter speed was 9.5 hours. The sample acquired a color within the orange part of the spectrum with coordinates, 298; , 366

From the examples it is clear that the proposed method of dyeing sapphire provided a drastic reduction in the exposure time, and thus a reduction in the cost, the gamut of cyan cyan shades; it is significantly expanded when using nickel oxide, and the use of new dyes produces blue and orange jewelery. colors.

Claims (4)

1. The method of dyeing leucosapphire by heat treatment in powdered dyeing metal oxide, which is also distinguished by the fact that, in order to reduce the cost of the process, heat treatment is carried out at 1125-1400 ° C for 2-10 hours. 2. A method according to claim 1, characterized in that, in order to obtain a blue color, nickel oxide is taken as the metal oxide. 3. A method according to claim 1, characterized in that, in order to obtain a blue color, cobalt oxide is taken as the metal oxide. 4. Method as claimed in claim 1, characterized in that, in order to obtain an orange color, strontium oxide is taken as the metal oxide.