SU396607A1 - DECKETMETER - Google Patents

Description

one

The invention relates to the field of investigation of the conditions for the formation of rocks and minerals by gas-liquid;

Famous decopremeters Basic transducers into electrical signals and recordings of acoustic waves accompanying: splashes of gas-liquid inclusions, do not allow to analyze crystals with perfect cleavage and various inhomogeneities, the latter cracking when heated, and also when there are no liquid inclusions. In addition, in these decorating meters, the heating element itself, when heated, abruptly deforms, which is accompanied by cracks.

This significantly limits the range of analyzed minerals and reduces the accuracy of the analysis.

The proposed decopitometer allows for the analysis of minerals with cleavage thanks to the fact that the nature of the gas pressure is recorded in it: in a sealed vessel with a sample when it is seared, it is measured using a micromanometer. To eliminate the effect of temperature expansion of the gas, the free end of the micromanometer is connected to a compensation vessel similar to the sample vessel. In both vessels, temperature is maintained with high precision by means of an automatic control system. In addition, an inert mass is placed in a compensation vessel that is close in thermal properties to the sample being analyzed.

Due to the fact that the liquid phase of the inclusions is in most cases water with minor impurities, which turns into a MOMeiiT and a explosion in steam, which condenses in the micromanometer, can cause errors in determining the pressure, a substance is added to the analyzed sample, for example Calcium carbide which mixes with water in a chemical reaction with evolution of gas: (acetylene).

The drawing shows the scheme of the proposed decrepitometer.

The decopitometer contains a vacuum pump with sample 2, reagent 3, heating element 4, thermocouple 5. On both sides / has valves 6 and 7, the latter of which has access to the surrounding atmosphere and into a vessel with slightly evaporating inert liquid (vacuum oil) in which the end of the tube 6 of the liquid micromanometer 9 is lowered, the second end of which is connected to the compensation vessel K), the heater //, thermocouple 12, inert mass} 3 and the valve / -: / are in the coir. Both thermocouples are connected to the comparison circuit 15, the output of which is connected to the regulator 16 of the heater current. The heaters are fed through a 17 ns regulator, spun from source 18. A thermometer 19 is connected to thermocouple 5, and a pressure gauge tube is fitted with a paper scale 20.

When the current source is switched on, the temperature in the vessels gradually increases at the same speed. Respectively increase, equal to the pressure. The menyok -Micromanometer remains stationary. . At the time of the beginning of decryption, the difference between the iB of the vessel iB appears. X, which is measured by the MJPK manometer. The registration process is carried out by marking the scale opposite the meniscus of the micromanometer in

the moment of passing the thermometer gauge through the boundary of the adjacent tick marks of its scale.

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A decopitometer consisting of a sealed sample vessel, a heater, a thermometer 1 and a recording device, characterized in that, in order to enable analysis of the minerals with cleavage, the recording device is made in the form of a micromanometer connected at one end to the sample vessel and the second with compensatory vessel, and the heaters are equipped with a system for automatically maintaining equal temperature in the vessels.