SU62977A1 - The method of thermal analysis of minerals, etc. substances - Google Patents

Description

Most sedimentary rocks are made of minerals that have water or CO2 in their composition. When heated, these minerals dissociate, and the dissociation of each of them occurs at a certain temperature. When recording, the heating curve records the thermal effects corresponding to the reactions taking place. In certain, rather narrow, limits of the absolute value, the thermal effect is recorded: on the heating curve, the proportion of heat of dissociation of the mine is mined; These features — the behavior of aqueous minerals and carbonates and heating — a certain temperature of the onset of the dissociation reaction and the proportionality of the magnitude of the thermal effect to the heat of the reaction — form the basis of the proposed method of quantitative thermal analysis.

Thermal method: analysis of substances by recording differential heating curves of the test sample and the reference is known. The proposed method is characterized in that two standards are used, one of which contains a detectable component. In a quantity that is clearly smaller, and the other in a quantity that is clearly larger than the sample under test, and the quantitative content of the detectable component is judged by the jump of the differential heating curves at thermal transformations in the test sample.

In the attached drawing, the image; on the apparatus used for the production of analysis, with FIG. 1 shows a general installation diagram, and FIG. 2 and 3 are a detail of the block for samples

The equipment consists of a tubular furnace, a nickel-shaped 10 cylindrical block in which three recesses A are located symmetrically about its axis and each other, and two differential thermocouples / connected to two 1 galvanometer mirrors 2. Both galvanometers reflect the resulting light beam onto one drum of the recording device 3, on which the readings of both galvanometers are recorded simultaneously.

Three batches are placed in the recesses A of the nickel block. One is the substance tested for the content of a certain mineral; the second is equal in weight to the first one and consisting of the mineral to which the analysis is performed, with a neutral substance (the mineral content in the mixture should be clearly less in quantity than in the test sample) and one third of the mixture similar (second, but containing mineral in an amount more clearly than in the source.

In the recess with the test substance (first), one thermocouple junction is placed one by one, and the remaining thermocouple junction is placed in the reference mixtures, one by one.

The nickel block is placed in the center of the furnace, symmetrically with respect to the pipe walls, and it is heated with simultaneous recording of the temperature state of all samples using both differential thermocouples.

The obtained diffraction heating curves VO during the reaction of dissociation or transformations occurring in the mineral, register in different directions and characterize the differences in the amount of mineral in both reference samples and the subject.

The amount of mineral in the reference

mixtures are known, and from the ratio

the maximum deviations of the mirrors, the gauge meters, the amount of the mineral in the test substance is calculated.

Subject invention

Claims (2)

1. A method of thermal analysis of minerals, etc., of substances by recording the differential heating curves of the test specimen and the reference, which is the sample. h and you sh and n; that two standards are used, one of which contains the detectable component in a quantity clearly lower, and the second in a quantity clearly greater than the test sample, and determine the quantitative content of the required component in the latter by the jump of the differential heating curves for their thermal transformations in test the sample. 2. For carrying out the method of claim 1, two differential thermocouples, the junctions of one of which are placed into one standard and the test sample, and the junctions of the other into the second standard and test sample. L fig.Z