SU458758A1 - The method of determining the optimal time of loading magnets on the isotherm during thermomagnetic processing - Google Patents

Description

Leip Relay II, having pins 12 and 13, Pins 12 is connected in parallel to the opening contacts 7, and pins 13 to the alarm and control circuit of the loading mechanism. Relays 8 and 11 are connected to a DC source through switch 14.

The device works as follows.

The magnet being processed, which is located in the gap of the included electromagnet 2, is cooled by the quenching temperature and experiences a ferromagnetic transformation. This changes the magnetic flux in the gap of the electromagnet 2 in proportion to the volume of the material of the magnet, which has passed into the ferromagnetic state. Accordingly, in the coil 1, an emf is induced, which is amplified by a photoelectric amplifier 3. The amplified signal is differentiated by differentiating circuit 4 and through capacitor 5 is fed to relay 6, which turns on and closes contacts 7. This turns on relay 8, closes its contacts 9 and 0. The value of the emf induced in coil I increases and reaches a maximum at the moment when the amount of material transferred to the ferromagnetic state reaches more than half the volume of the magnet being processed. Then emf decreases. In this case, the signal at the output of the photoelectric amplifier 3 decreases, and the differentiated sig 458758

the water fed to relay 6 is mixed to zero. Relay 6 turns off and opens. Contacts 7 turn on relay 11. Contacts 12 block disconnecting contacts 7, and contacts 13 turn on the alarm and the mechanism for loading magnets into an isothermal environment during ITMO. Turning on and off the switch 14, the circuit is reset to its optimal position to determine the next loading moment.

PRIOR DIRECTORSHIP and

The method of determining the optimal time of loading magnets on an isotherm during thermomagnetic processing by fixing the magnetic movement occurring in the material processed during its cooling in a magnetic field using inductors near the processed magnet, characterized in that, in order to reduce isothermal temperature fluctuations after loading a magnet into an isothermal thermomagnetic treatment, the optimal time is determined by the transition to the ferromagnetic state more than ins processed magnet volume, which corresponds to the maximum value of emf inductance inductance.