SU106702A1 - Method for determining the degree of uniformity of glass - Google Patents

Description

The known method for determining the degree of homogeneity of glass consists in determining the temperature range of density within which the lightest and heaviest particles of glass powder found in the P mixture of organic immersion liquid, when heated, this mixture settles to the bottom of the vessel or floats to the top.

To accomplish this process, the washed glass powder is dried and degassed in a vacuum-cupboard, and when the vessel is filled with a mixture of organic liquid, it is again degassed in the same H1 cabinet.

C, e. Types) process acceleration, density stratification is carried out by the action of a centroelle force.

Thus, the determination of the degree of homogeneity of the glass according to a method already known requires numerous complex equipment (vacuum drying unit, centrifuge, electric furnace) and a long time for processing glass. powder and measure the degree of heterogeneity of glass density.

The method for measuring the degree of glass heterogeneity proposed by the present invention is also carried out on a stack; another powder, which is in a mixture of an organic immersion liquid, when the temperature of this medium changes.

However, in order to accelerate and simplify the measurement, the degree of non-uniformity of glass is determined by the density measurement path, and by determining by photoelectric setting the amount of light passing through this liquid with a glass leak when their temperature changes, or the amount of light diffused by them. .

FIG. 1 shows an exemplary diagram of a photoelectric device for determining the degree of inhomogeneity of glass by light transmission; in fig. 2-by scattering.

The device consists of a monochromatic light source / illuminating with the help of a mirror: 2, lenses 3 and diaphragms 4 two cuvettes 5, interconnected in a thermostat 6. filled with liquid, for mixing which there is a membrane 7.

One of the cuvette is engraved with meh. Grains from a different section of the investigated piece of glass or a product, and an immersion type.

The second cuvette is filled only with immersion liquid.

The light passing through both cuvettes (phi1) or scattered light by cells (phi1 2) hits two photocells or photoresistances, respectively, included in a differential or bridge circuit, the output of which is fed to a self-drawing device 10.

The temperature in the thermostat increases evenly at a low speed, which is provided by the thermostat J}.

The immersion liquid is chosen so that when the temperature changes, its refractive index coincides with the glass under study.

At the beginning of the determination, when it is shown that the immersion liquid is refracted from the research glass, the cell with the glass powder sprayed into the immersion liquid, is an optically inhomogeneous medium, it strongly scatters and very little light is transmitted.

As heating and convergence of the refractive indices occur, the dispersion of such a medium decreases, and the transparency increases.

If the refractive index of a liquid with a refractive index of glass (in the case of perfectly homogeneous glass) coincides, the medium becomes optically homogeneous with maximum transparency, and its scattering capacity is close to zero.

With further heating, the difference in refractive indices increases, which again increases scattering and reduces transparency.

A self-recording device will record bell-shaped curves 12.

The less homogeneous the powder, the wider and gentler the curve will be, since the different parts of the powder will immerse at different temperatures.

If the temperature of the immersion liquid is recorded on the same instrument, it is possible to set the limits of non-uniformity in units of the refractive index.

Subject invention

The method of determining the degree of homogeneity of glass using the investigated glass in the form of a glass of a powder in an organic immersion liquid with a change in the temperature of the liquid and the powder, oh; In addition, in order to quantify the degree of homogeneity of the stack: 1a, the amount of light passing through this liquid with glass powder or the amount of light scattered by this medium is measured.

-LLMALLDA

Ho 106702

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