SU149813A1 - The method of controlling the process of polarization of ceramic piezoelectrics - Google Patents

Description

In the case of polarization of ceramic piezoelectrics, a measurement of the magnitude of the piezoelectric module is usually made after removing the polarizing voltage.

In the described method, the magnitude of the induced piezomodule is monitored continuously without interrupting the polarization process, which is achieved by placing the piezoelectric in the field of the ultrasonic emitter and measuring the alternating voltage on the electrodes of the piezoelectric, which determine the magnitude of the induced piezoelectric module.

In order to clarify the method described in FIG. 1 shows an electrical circuit of an installation serving to polarize ceramic piezoelectrics with continuous control of the polarization process; in fig. 2-constructive execution of this installation.

In the field of an ultrasonic magnetostrictive radiator / piezoelectric 2 is placed, to which a polarizing voltage is applied via a choke 4 from a DC source connected to terminals 3. The emitter / is fed through a coupling capacitor 5 from a generator having an oscillation frequency of about 20 kHz, which is connected to terminals 6. In addition, an alternator voltage is supplied to the winding of the radiator / source from a DC source connected to terminals 7. For adjusting the magnitude of the magnetizing current - serves as a potentiometer 8.

Under the action of ultrasonic vibrations on the electrodes of the piezoelectric 2, an alternating electric voltage is generated, which through the separation capacitor 9 is supplied to the amplifier 10 connected to the lamp voltmeter 11. According to the magnitude of the voltage produced on the electrodes of the piezoelectric, measured by a voltmeter, //

control of the process of polarization and the magnitude of the induced piezoelectric moduli. Voltmeter 11 is calibrated against reference samples of piezoelectrics.

The piezoelectric 2 is placed in the tank 12 (Fig. 2) filled with silicone mast between the base plate 13 and the holding electrodes 14. The emitter / Epoxy glue is glued to the bottom of the tank 12. To control the radiated acoustic power, use a piezoceramic technique: nick 15, attached in the holder 16. A thermocouple is used for temperature control, not shown in the drawing, which is placed in the recess 17 of the baseplate 13.

Having drawn a family of curves characterizing the dependence of the magnitude of the well-known laser modulus on the polarization time for different values of the polarizing field, they find the optimal value of the polarization voltage. Then, a family of curves characterizing the dependence of the magnitude of the induced piezomodule on the polarization time and operating temperature at the optimum value of the polarization voltage is drawn, and the optimum temperature value is found. The time of the optimal -polarization mode is obtained from a graph characterizing the dependence of the piezomodule size on the duration of the -polarization process at the optimum value of the polarization voltage and the optimum working temperature.

Subject invention

The method of controlling the process of polarization of ceramic piezoelectrics, in particular, the control of the magnitude of the induced piezomodule, characterized in that, in order to control without terminating the polarization process, the piezoelectric is placed in the field of the ultrasonic emitter, and the magnitude arising under the action of ultrasonic vibrations on the electrodes of the piezoelectric variable the electrical voltage is assessed during the polarization process and the magnitude of the induced piezomodule.

Bb of about 7