SU1376019A1 - Device for differential thermal analysis - Google Patents

Abstract

The invention relates to the physicochemical analysis of substances, namely, devices for differential thermal analysis. The purpose of the invention is to increase the resolvability. The device contains a heating source, measuring cells,; two receivers, temperature meters for the test and reference samples, located in the heating zone and differential connected to the input of the first ushshtel, a temperature difference meter, two additional reference cells, between which are sensitive elements of the temperature difference meter, two additional heaters placed on additional reference cells, reference element, power amplifier and recorder. The input of the second amplifier is connected to a temperature difference meter, and the output is connected to one of the inputs of the comparison element, to the other input of which the output of the first terminal is connected, and to the output is a recorder and power amplifier connected to additional heaters 1 sludge. W

Description

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The invention relates to the physicochemical analysis of a substance, namely to the study of phase transformations by means of differential thermal analysis (DTA),

The aim of the invention is to increase the resolution.

The drawing shows a diagram of a device for differential thermal analysis.

The device contains a heating source 1, inside which the measuring cells 2 are located, the first amplifier 3, the reference element 4, additional reference cells 5, the second amplifier 6, the power amplifier 7, additional heaters 9 placed on additional reference cells 5, the meter 10 temperature differences and temperature measuring instruments of the studied and reference samples II.

Temperature gauges are investigated. The mobile and reference samples 11 are differentially connected to the input of the first amplifier 3. Sensitive elements of the temperature difference meter 10; located between the reference cells 5. The input of the second amplifier 6 is connected to the temperature difference meter 10, and the output is connected to one of the inputs of the comparison element 4, the output of the first amplifier 3 is connected to the other input, and the recorder 8 and the power amplifier 7 are connected to the output, connected to additional heaters 9,

The device works as follows.

Before the experiment, a monotonous thermal regime is set, for example, heating samples at a constant speed, by adjusting the power of the heating source 1, In the absence of the sample under study, located in one of the measuring cells 2, phase transitions accompanied by thermal effects, temperatures cells 2 are equal to each other; from the output of the first amplifier 3, one of the inputs of the comparison element 4 receives a zero signal. ,

The temperatures of the additional reference cells 5 are also equal, therefore, from the output of the second amplifier 6 to the other input of the comparison element 4, a zero signal is received. The circuit is in the equilibrium position.

The beginning of a phase transition in the sample under study, accompanied by, for example, heat release, results in clearing the temperature difference between the measuring cells 2, and the balance of the circuit is disturbed. A signal other than zero is fed to the input of the power amplifier 7 and to the recorder 8 .cb of the element of the comparison element 4. Under the influence of this signal from the output of the power amplifier 7, one of the heaters 9 is supplied with electric current, the value of which is proportional to the absolute value of the signal magnitude on the reference element 4. The choice of cell 5, into which electric power is supplied by one of heaters 9, is carried out automatically according to the sign of the signal from the output of reference element 4. The sign of the signal depends on whether heat is released or absorbed in the sample under investigation due to a phase transition.

The temperature of the additional reference cell 5, in the heater of which electrical power is released, begins to increase, the temperature difference between the reference ones appears. cells 5 and T ,, fixed meter 10 temperature difference. The input of the amplifier 7 power and the recorder 8 from the output of the element 4 is compared to receive a signal proportional to the difference (ltd - LT,). Analytically, it can be shown that the magnitude of this signal is directly proportional to the power of the heat release process in the sample under study.

Claims (1)

After the phase transition is completed, the heat release in the cell with the sample under study stops, the difference (LTR-LT) begins to decrease rapidly, and the heat release in one of the additional reference cells 5 decreases accordingly (conditions of cells 2 and 5 are equal to each other, conditions the heat exchange of cells 2 and 5 by the surrounding space and the heating source 1 are identical, and the thermal influence of cells 2 and 5 can be neglected due to the smallness of the values of U, TO and bTe). Invention Formula A device for differential thermal analysis, containing a heat source, inside which there are measuring cells, an amplifier, temperature meters of the test and reference samples, located in the heating zone and differentially connected to the amplifier input, a temperature difference meter and a recorder, characterized in that, in order to increase the resolution, it also contains two reference cells, between which located sensitive elements of the meter temperature differences, two heaters placed on additional reference cells, a comparison element, a power amplifier, a second amplifier, whose input is connected to a temperature difference meter, and an output to one of the inputs of the comparison element, to the other input of which the first-amplifier output is connected, A recorder and a power amplifier connected to additional heaters are connected to the output.