UA24360U - Hydrostatic cuvette for a semiconductor optical high-pressure chamber - Google Patents

Abstract

The proposed hydrostatic cuvette for a semiconductor optical high-pressure chamber contains a cylindrical vessel made of fluoroplastic, plates made ofsodium chloride, and a ruby plate arranged between the plates of sodium chloride. The vessel is filled with liquid (PES-3). The sample to be tested isplaced between the plates of sodium chloride. The vessel is closed by a cover made of sodium chloride.

Description

Description of the invention

The useful model refers to the technique of measuring optical parameters in a wide range of temperatures and 2 pressures and can be used in analyzers of the composition and properties of liquids and gases.

A well-known measuring cuvette for analysis at high pressure and temperature, which contains a steel body, inlet and outlet nozzles, quartz viewing windows, two frames that are screwed into the body on both sides.

Frames have grooves where windows are inserted by hot fitting |11.

The disadvantage of the known design is the complexity of manufacturing, measurement inaccuracy.

The closest in terms of technical essence and the result achieved is a cuvette, which has the following design: a beaker is made from monocrystalline sodium chloride, at the bottom of which a sample, a chloride plate and a ruby crystal plate are placed, after which the beaker is filled to the brim with a sodium chloride plate ( 2I. A plate made of a ruby crystal is added to the cuvette to determine the amount of pressure and compression unevenness based on the position and shape of the lines of the ruby luminescence spectrum. 12 The disadvantage of the known cuvette is the uneven compression of the test sample and the inaccuracy of the pressure measurement.

The basis of a useful model is the task of creating a hydrostatic cuvette for high-pressure solid-state optical cameras by simplifying the design, using fluoroplastic material, a medium that transmits pressure - a chemically neutral liquid PES-3, and increasing the accuracy of pressure measurement.

The task is solved due to the fact that the hydrostatic cuvette for high-pressure solid-state optical cameras, which contains a glass, sodium chloride plates, a ruby plate located between them, a sample, according to a useful model, the glass is made of fluoroplastic material, which has in the lower a plate made of sodium chloride used as a stopper, and the glass is filled with PES-3 liquid, in which the sample to be examined is placed, which is located between the plates of transparent material, and the ruby plate and sodium chloride plates are isolated from each other with PES-3 liquid and the fluoroplastic cup 22 is covered with a lid made of sodium chloride. in

In Fig. cuvette, longitudinal section is shown.

Cuvette contains lid of sodium chloride 1, plate of sodium chloride 2, plate of ruby Z, plate of sodium chloride 4, plate of transparent material 5, liquid PES-3 6, sample 7, plate of sodium chloride 8, which is a stopper, beaker from fluoroplastic 9. o

An example of a specific implementation. Gee)

When the pressure is measured, the hydrostatic cuvette is installed in the high-pressure chamber. As a medium that transmits pressure, chemically neutral to all elements of the cuvette liquid PES-3 is used, with and. continuous absorption spectrum in the optical range. To eliminate the possibility of liquid flowing out of the cuvette, a plate of sodium chloride 8 is placed on the bottom of the fluoroplastic cup 9. Next, PES-3 liquid 6 is poured in and sample 7 is placed between the plates of transparent material 5, a plate of sodium chloride 4 and ruby plate 3. The space between the ruby plate C and the sodium chloride cover 1 is filled with a sodium chloride plate 2 of such thickness that the total thickness of the liquid layer between all the internal elements of the cuvette is no more than mm. After that, the fluoroplastic glass 9 is closed with a lid and placed in a glass of sodium chloride, which is used to fill the working volume of the chamber. WITH

The table shows the results of measuring the pressure unevenness at a ruby plate thickness of 0.5 mm and a pressure change from 0 to 35 kbar using a hydrostatic cuvette without a sample. ;" in-laws in Go (1520 | zv | zo | zv. z oRokvero oov|oi2 om 029(032 053095, ime) them Thus, the use of a hydrostatic cuvette makes it possible to conduct spectral optical measurements at low unevenness of the working pressure, as a result of which the accuracy of the measurement increases and eliminates about the destruction of the ruby plate and the sample under study.

FO 20 Sources of information used in the application: 1. A.s. USSR Mo817547 MKY O 01 M 21/05, Publ. 30.03.81. Bul. Mo12. m) 2. H. Drykamer, A. Balchan. Optical and electrical measurements at high pressures. - In the book:

Modern technology of ultra-high pressures. Moscow: Mir, 1964, pp. 51-89 (prototype). EU

Claims (1)

The formula of the invention A hydrostatic cuvette for high-pressure solid-state optical cameras containing a beaker, plates of sodium chloride, a ruby plate interposed therebetween, a specimen characterized in that the beaker is made of a fluoroplastic material having a sodium chloride plate in its lower part, which is a cork, and the beaker is filled with PES-3 liquid, in which the test sample is located, which is located between plates of transparent material, and the ruby plate and sodium chloride plates are isolated from each other by PES-3 liquid, and the fluoroplastic beaker is covered with a lid made of sodium chloride. b5