SU1260795A1 - Device for differential thermal analysis - Google Patents

Abstract

The invention relates to the field of physico-chemical analysis of substances, namely to the study of phase transformations by means of differential thermal analysis (DTA). The purpose of the invention is to simplify the device and improve the accuracy of the analysis by eliminating the error of the effect of temperature on the results of thermal analysis. The device comprises a furnace 1, a temperature meter of the sample under study 2, a temperature meter of the reference sample 3, an amplifier 4 of the differential signal of the meters 2 and 3, a recorder 5, a temperature meter of the heating source 6, the sensitive element of which is located in the zone of the reference sample. Differentially connected meters 2 and 3 are connected to the amplifier input aa, the amplifier's output is connected to the recorder 5. Differentially connected meters 3 and b are connected to the control input of the amplifier with -s, and meter 3 is connected to its control input a -with. An increase in the accuracy of the analysis is achieved by automatically adjusting the recording scale at different parts of the DTA curve with respect to the thermal effects recorded at different temperatures. 1 hp f-ly, 1 ill. (L 1CHE O5 about g sd

Description

The invention relates to the physicochemical analysis of substances, namely the study of phase transformations through thermal analysis.

The purpose of the invention is to simplify the design of the device and improve the accuracy of the analysis by eliminating the error of the effect of temperature on the results of thermal analysis.

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

The device contains a furnace 1, a temperature meter of the sample under study 2, a temperature meter of the reference sample 3, a differential amplifier 10

neither is shown in the drawing) a monotonically varying thermal regime is given.

As the temperature of the furnace 1 changes, the signal from the temperature gauge of the reference sample 3 acts on amplifier 4 on the control input ac, so that the recording scale increases with increasing signal and vice versa. In the case, if the experiment is carried out in isothermal mode, the gain remains constant, since the signal from the temperature meter of the reference sample 3 remains constant. Thus, the recording scale in different parts of the DTA curve is automatically corrected with respect to the recorded

sensor signal 4, register 5 thermal effects, resulting in

Rotor 5, a furnace temperature meter 6, the sensitive element of which is located in the zone of the reference sample. Differentially connected meters 2 and 3 are connected to the input of the amplifier aa | the amplifier's in-out output is connected to the recorder 5, which captures a signal proportional to the temperature difference, depending on the time or temperature of one of the samples (the corresponding section of the electrical circuit is not shown in the drawing). Differentially 25 connected meters and 3 and b are connected to the control input of the cc, meter 3 is connected to the control input of the a c.

The device works as follows.

The accuracy of the DTA results is high, and almost complete unification of the DTA curve is achieved.

Claims (3)

1. A device for differential thermal analysis, containing a furnace, temperature meters of the reference and test samples, differentially connected to the control input of the amplifier, and a recorder, characterized in that, in order to simplify the design and improve the accuracy of the analysis, it is equipped with a furnace temperature meter, moreover poles of the same temperature meter before the start of the experiment, the outcome of the 30 and the standard temperature meter the required scale of registration of the DTA cree sample is connected counter and second with a field, and the expected value of the signal difference between the furnace temperature meter and the meters between the furnace temperature meters and the temperatures of the reference sample of the reference sample 3 and the temperature are exclusive to the control input amplifier, perimeter is established optimal 2. The device according to claim 1, characterized in The magnitude of the amplification factor of the amplifier is that as a temperature meter for pep inlet a-a. Then, due to the regulation, a meter was used to set the kiln power down (the system was used to control the growth of the furnace temperature. 0 neither is shown in the drawing) a monotonically varying thermal regime is given. As the temperature of the furnace 1 changes, the signal from the temperature gauge of the reference sample 3 acts on amplifier 4 on the control input ac, so that the recording scale increases with increasing signal and vice versa. In the case that the experiment is carried out in isothermal mode, the gain remains constant, since the signal from the temperature gauge of the reference sample remains constant. 3. Thus, an automatic adjustment of the recording scale in different parts of the DTA curve with respect to the recorded 5 thermal effects, as a result of which thermal effects increase, as a result of which the accuracy of DTA results increases, and also almost complete unification of the DTA curve is achieved. Invention Formula 1. A device for differential thermal analysis, containing a furnace, temperature meters of the reference and test samples, differentially connected to the control input of the amplifier, and a recorder, characterized in that, in order to simplify the design and improve the accuracy of the analysis, it is equipped with a furnace temperature meter, moreover one thing