SU1717677A1 - Method of modification of prehnite - Google Patents

Abstract

The invention relates to the field of enriching colorless preenite varieties and makes it possible to obtain high-quality jewelry differences from non-conforming raw materials. Provides lemon coloring prehnit from various fields. Irradiation is electron dose

Description

The invention relates to the refinement of colorless preenite varieties and allows to obtain high-quality jewelry from substandard raw materials.

There is a method of changing the color of minerals, including irradiation and the following heat treatment, when, in order to refine prenit by giving it a steady green color, the irradiation is carried out with a dose of 7-10 Mrad, and heat treatment is carried out for 40-50 minutes at 150-180 ° C.

However, this method is not suitable for every field.

There is a known method for determining the quality of preenit used in the jewelry industry, which makes it possible to identify deposits that are promising in the sense of refining in the manner described above. Green coloration is achieved by changing the coordination of ferric iron, which is ensured by the presence of weakly bound water in the prenite playing

the role of a catalyst leading to the mobility of iron ions on the prenit matrix.

However, you can create other color centers, due to no grimes m. with lattice defects. For example, when irradiated with electrons, V OH, V1, P centers appear, which under certain conditions can provide a certain preenite color.

The purpose of the invention is to give a lemon color to prenitus from various deposits.

This goal is achieved by the fact that according to the method of changing the color of minerals, including irradiating samples with an electron stream, the irradiation is conducted with an electron flux of 2.8 MeV with a dose (1-5) of 1016 electrons / cm, then heat treatment is carried out for 10-20 minutes 170-190 ° C.

PRI me R. 1. A prenit crystal is irradiated with a stream of electrons with a dose of 5 1015 el / cm2, after which it acquires a brownish-pink color, then placed in W

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furnace oven and incubated at 150 ° C for 10 minutes. The crystal acquires a flesh-colored color, and the jewelry transparency cannot be achieved. With an increase in heat treatment time, discoloration of samples occurs.

PRI mme R 2. A prenit crystal is irradiated with a stream of electrons with a dose of 10 electrons, after which it becomes brownish-yellow in color, then placed in a muffle furnace and kept at 170 ° C for 1.5 minutes. The crystal takes on a beautiful lemon color. With an increase in heat treatment time, the color is lightened and the sample completely discolored. With an increase in the annealing temperature (more than 200 ° C), the color of the sample brightens and completely disappears at 400 ° C.

Example 3. A prenit crystal is irradiated with a stream of electrons with a dose of 5-10 electrons / cm2, after which it acquires a brown color, then placed in a muffle furnace and kept at 190 ° C for 20 minutes. Crystal acquires jewelry lemon color. An increase in the annealing temperature leads to lightening of the color and its complete disappearance at 400 ° C. A similar result is obtained with an increase in processing time and with an increase in the annealing time to 2 hours, the color completely disappears.

Example 4. Prenit crystals are irradiated with a stream of electrons with a dose of 1017 electrons / cm, after which it acquires dark brown is maintained at 200 ° C for 30 minutes. The crystal takes on a green-yellow color. Increase in time

heat treatment and temperature do not eliminate the green tint, and the presence of a different color tint is undesirable for jewelery differences.

In tab. Figure 1 shows the results of studying the dependence of the heat treatment time at 160-1909 ° C on the irradiation dose to obtain a lemon stain; in tab. 2 - the results characterizing the dependence of the optimum temperature at which prenit samples in a muffle furnace are kept for obtaining a lemon color, on the radiation dose.

From tab. 1 and 2, it can be seen that treatment at 170 ° C leads to a bodily color, the jewelery transparency is not achieved, at 190 ° C and an increase in the dose of radiation (more than 5 to 1016 electrons / cm 2), green shades are mixed in.

Thus, the inventive method makes it possible to obtain a stable prenite lemon color. The method is universal and allows for the ennobling of preenites of all deposits, which greatly expands the scope of application of the proposed method. . . -. . ::. -. . ;

Claims (1)

Invention Formula The method of enriching prenit for jewelry purposes, including its irradiation and subsequent heat treatment, is due to the fact that, in order to impart a lemon color to prenit from different deposits, the irradiation is carried out with an electron dose of (1-5) 10 electrons / cm2, and - 5, the treatment was carried out at 170-190 ° C for 10-20 minutes. 0 five 0 five 0 Table 1