SU1392474A1 - Method and device for determining melting point of materials - Google Patents

Abstract

The invention relates to a physicochemical analysis, in particular, to a method for determining the melting temperature of materials and a device for carrying it out. The purpose of the invention is to improve the accuracy of determination and simplify the design. The temperature and melting point are determined from the damping of vibrations on the surface of the substrate. The melting moment is determined by the change in the amplitude of oscillations of surface-active waves excited in the piezo-substrate when an acoustic contact of the substance with the substrate occurs. The melting point is determined by the frequency corresponding to the change in the amplitude of the oscillations. To do this, a comparator is entered in ycTpoiicTBo, the input of which is connected to the amplifier output, the output is connected to one of the inputs of the frequency converter to temperature. To simplify the design, the thermal heating element is located on the surface of the piezoelectric substrate. 2 sec. and 1 z. p. f-ly, I ill. (L

Description

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This invention relates to physicochemical chemistry and can be used in chemical and pharmaceutical industry to control the purity of powders.

The aim of the invention is to improve the accuracy of determination and simplify the design.

The method is specified as follows.

A resonator of surface acoustic waves (surfactants) is formed on the surface of the substrate. The test substance is placed on the base, which is the surface of a solid, so that the whole working surface is covered. On the surface of the base, vibrations are excited - surface-acoustic waves. Melting of the substance under investigation is carried out by passing a current through the base. The oscillation frequency is recorded at the moment when the oscillation amplitude changes, which is used to determine the melting temperature of the material directly on the surface of the substrate: (F ,, -Pn),

measured frequency value;

frequency at 0 ° C; slope of the heat-frequency characteristic, s / Hz.

The drawing shows the electrical circuit of the device for the implementation of the proposed: 1st method.

The device contains a piezo-substrate I, on the surface of which two interdigital transducers (IDT) 2 and 3 are located, a thermal heating element A, the terminals of which are connected to the power supply 5, an amplifier 6, the input of which is connected to the receiving VS11P and 3 V1Sh1 2, frequency converter 7 to temperature, the input of which is connected to the output of amplifier 6, and the output is connected to the display 8 of the display, and a comparator 9, whose input is also connected to the output of amplifier 6, and the output is connected to the second input of the frequency converters 7 in that eraturu

The device works as follows.

The line of the chadier, the formation of a piezo substrate 1 with overhead transducer 2 and 3 applied to its surface, is included in the feedback circuit of amplifier 6. Their parameters are such that they are performed by the appearance of auto EC

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neration. The frequency of surfactant oscillations depends on the temperature of the piezo substrate. The test substance is placed on the surface of the piezo substrate, the substrate is heated by passing a current from the power source 5 through the thermal heating element 4. At temperatures below the melting temperature, the acoustic contact of the substance with the substrate is very small and does not affect the propagation of surfactants. At the moment of melting, the acoustic contact of the molten substance with the substrate occurs, as a result of which an acoustic defect appears on the surface, which leads to a sharp increase in the attenuation of the surfactant. As a result of the attenuation caused by the dissipation of the energy of the propagating acoustic wave in the molten substance layer, the amplitude of the oscillations at the output of amplifier 6 drops. When it decreases below a certain threshold value, a comparator 9 is activated, which supplies a signal to the frequency converter 7 to the temperature from which The melting temperature of the inlet is shown on the 8th display.

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Claims (3)

1. A method for determining the melting temperature of materials in which a sample is placed on a substrate is heated by passing an electric current through the substrate and the attenuation of mechanical vibrations is recorded, characterized in that, in order to improve the determination accuracy, a resonator of surface acoustic waves is formed on the substrate surface. frequency of self-oscillations of which depends on temperature, and record the frequency of oscillations at the moment of changing the amplitude of the surface-acoustic waves, which determine the melting temperature of the mat rial. 2. A device for determining the melting temperature of materials containing a piezo-substrate coated with on its surface receiving and transmitting interdigital transducers, an ampillator, the input and output of which P1 are connected respectively to the receiving and transmitting interdigital transducers, the transducer chag. which is connected to the amplifier output, and the output is connected to the scoreboard, and a heating element connected to the source of the campaign, which, in order to increase the determination accuracy, a comparator is entered into it, the input of which is connected to the amplifier output, and the output is connected to one of the inputs of the frequency to temperature converter. 3. A device according to claim 2, characterized in that, in order to simplify the construction, the thermona1 rotary element is located on the surface of the piezo substrate. / Ttl H 1 / / I I I 1111 2 iJ