SU268232A1 - METHOD OF POLARIZATION OF FERROELECTRIC MOTORIAL - Google Patents

Description

The present invention relates to the field of radio electronics, and in particular to the technology of polarization of ferroelectric materials. Methods are known for the polarization of ferroelectric materials based on their heat treatment and the creation of a constant electric field in them.

However, the known methods do not provide sufficiently stable parameters of piezoelectric materials and do not allow obtaining materials with the maximum possible piezo activity.

The purpose of the invention is to increase the stability of the parameters of a ferroelectric material and increase its piezoactivity with increased conductivity below the Curie point, which is not Meiiee III (olgog) 1.

For this, the polarized material is exerted by external influences ensuring the effective flow of each stage, in the first stage, in order to weaken the volume charge fields, the specific electrical conductivity of the material is increased to no more than (cm) by heating the sample in a dielectric medium to a temperature not higher than transition to the paraelectric phase. In the second stage, in order to overcome the influence of the remaining internal fields and create the maximum residual electric dipole moment

apply to the sample a constant electric field with a voltage not higher than the voltage of the electrical sample of the material in the range of 50-70 kV / cm for a time not longer than 10 minutes: it allows an increase in the electrical conductivity to not more than 10 (o.m. cm), in the third stage, in order to consolidate the achieved electric dipole molecule, a constant electric field is applied to the sample with a strength that does not benefit from the intensity of the thermal breakdown in the range of 10-30 kV / cm: material yield is reduced to

values not exceeding 10 (ohm-cm).

The polarity of the electric field on the third

stage can be irotiviolol on the polar field in the second stage. Since the processes

changes in conductivity on stage

have a duration of the order of units and fractions of a second, automation of controlling the polarization process should be provided. The change of stages is carried out with the help of the systems of automatic control of electrical and conductivity and automatic regulation of the field electric field.

During the polarization process, the piezoelectric characteristics of the material are automatically measured. The second and third stages of the process

nor the required piezoelectric parameters.

Subject invention

A method of polarizing a ferroelectric material, based on heat treatment of a ferroelectric material and creating a constant electric field in it, characterized in that with a view to improving the stability of the parameters of the ferroelectric material and increasing its piezoactivity,

The ferroelectric material is heated in a dielectric medium to a temperature not exceeding the temperature of the material's transition to the paraelectric phase, creates in the material a polarized constant electric field, the strength of which is lower than the intensity of the electrical sample of the material, and changes the intensity of the polarizing field, maintaining its absolute value is lower than the magnitude of the intensity at which the development of thermal material of the material takes place.