SU1013836A1 - Method of determination of relaxation transition in potymer materials - Google Patents

Abstract

A METHOD FOR DETERMINING RELAXATION TRANSITIONS IN POLYMERIC MATERIALS by placing a sample of a material between metal electrodes, applying an alternating electrical voltage to the electrodes, heating the sample and determining the temperature at which the electrical properties of the material change, tl and h that, in order to improve the processability of the method by simplifying the procedure of controlling electrical properties, the voltage on the electrodes is periodically increased to values higher than the development voltage ionization processes in microcavity x sample material, and determining said voltage, and relaxation transitions opredep dissolved depending on the voltage i on the temperature development. (L S / si 00 od

Description

The invention relates to a technique for determining the properties of materials and can be used in the development of devices for controlling the properties of polymeric materials in the chemical and other industries.

The known method of determining the relaxation properties of polymeric materials by determining the deformability of the sample at different temperatures C)

The disadvantage of this method is the complexity of its implementation, due to the need to determine several temperature dependencies of the material deformability.

The closest to the proposed method is to determine the relaxation properties of polymeric materials by placing a material sample between metal electrodes, applying an alternating electric voltage to the sample heating electrodes and determining the temperatures at which the electrical properties of the material fZj change. However, the known method also has low processability due to the fact that in order to detect changes in dielectric properties, it is necessary to determine not only the temperature dependences of the monitored parameter or different frequencies.

The aim of the invention is to improve the processability of the method by simplifying the procedure for controlling electrical properties.

The goal is achieved by the fact that, according to the method of determining relaxation transitions in polymeric materials, by placing a sample of material between metal electrodes, applying an alternating electrical voltage to the electrodes, heating the sample and determining the temperatures at which a change in the electrical material occurs, the voltage on the electrodes periodically increases to values higher than the voltage for the development of ionization processes, determine the indicated voltage, and relaxation transitions are determined by voltage dependence on the temperature development. .

FIG. 1 shows a diagram of a device with which a method can be implemented; and Lig, 2, the dependence of the voltage V, the occurrence of ionization processes on the temperature T for various materials.

The device consists of an adjustable alternating voltage generator 1 (for example, ZG-ZZ), a meter 2, a voltage, a step-up transformer 3. The test sample is placed in a thermostat 5 between the electrodes 6. A choke 7 is connected in series to the electrodes in the discharge circuit. the throttle is fed through the capacitor 8 to the meter 9.

The device works as follows.

On the generator 1 set a certain frequency and begin heating the sample. As the temperature increases, the voltages periodically increase until ionization processes occur in the micropores of the sample material. The occurrence of these processes is easily recorded, for example, with an oscilloscope, which can also be used as a meter 9 for the occurrence of high frequency emissions on the voltage signal line on the choke.

As can be seen from FIG. 2, the voltage / (T) and the occurrence of ionization processes are also characterized by the presence of several minima. Analysis of the data obtained for various polymers (PKA, PVA and PVC), and comparing them with the results of measurements by traditional methods showed that the indicated minima reflect relaxation transitions and that the obtained data can determine the activation energy for these transitions. The definition of V (T) requires a much simpler method and measurement tools.

Thus, the processability of the method is significantly improved compared with the known ones. The tests carried out showed that what is happening is also an increase in the accuracy of determining the temperatures of relaxation transitions.

Claims (1)

METHOD FOR DETERMINING RELAXATION TRANSITIONS IN POLYMERIC MATERIALS by placing a sample of material between _g metal electrodes, applying alternating voltage to the electrodes! heating the sample and determining the temperature at which there is a change in the electrical properties of the material, which is due to the fact that, in order to increase the manufacturability of the method by simplifying the procedure for monitoring electrical properties, the voltage on the electrodes is periodically increased to values exceeding the voltage of the development of ionization processes in the microcavities of the sample material, and the indicated voltage is determined, and relaxation transitions are determined by the dependence of the development voltage on temperature.