SU842659A1 - Device for measuring low-magnetic substance magnetic susceptibility - Google Patents

Description

Zina mutual inductance, and to the second output - the first output of the magnetizing solenoid, as well as the indicator zero, the first input of which is connected to two measuring windings connected in series with the secondary winding of the mutual inductance store and. The second input is connected to a tap of a potentiometer / connected in parallel to the secondary winding of a current transformer, a switch and a magnetic moment measure are introduced in the form of a coil with a winding, the first terminal of which is connected to the second output of the AC source, the second terminal to the first output of the switch, the second output of which is connected to the second output of the magnetizing solenoid, and the input to the primary winding of the mutual inductance store, while the measure of the magnetic moment is located inside one of the measuring windings.

The drawing shows a block diagram of a device for measuring the magnetic susceptibility of samples of weakly magnetic substances.

The device contains an AC source 1, to which the primary winding 2 of the current transformer 3 is connected in series, the primary winding 4 of the mutual inductance store 5, to the second output of the switch b 1TO the second output of the magnetizing solenoid 7 is switched on. Indicator 8 zero through a tap of the potentiometer 9, the secondary winding 10 of the transformer 3 current and secondary winding 11 of the store 5 mutual inductance, connected to the same and connected in series and counter-measuring windings 12 and 13 Measure 14. The magnetic moment in the cable th coil is connected by one of its ends to the second output tsrremennogo current source 1 and the other - to the first output of the switch 6, the input of which is connected to the primary winding 4 stores five mutual inductance. Measuring windings 12 and 13, wound on a hollow cylindrical frame made of non-magnetic non-conductive material, are placed inside the magnetizing solenoid 7 at equal distances x from its center in the zone of a uniform magnetic field.

A device for measuring the magnetic susceptibility of samples of weakly magnetic substances works as follows.

When current flows from an alternating current source 1 through the primary winding 2, the current transformer 3, the primary winding 4 of the mutual inductance store 5 and the magnetizing solenoid 7 in the same measurement-winding measuring windings 12 and 13 located inside the solenoid 7 in the zone

a uniform magnetic field, an electromotive force (EMF) of equal magnitude but oppositely directed. Therefore, the current in the indicator circuit of the 8th zero should be absent, however, since it is impossible to manufacture the windings 12 and 13, different electromotive voltages are induced in them completely identical, and through the indicator 8 zero some initial current containing both reactive and active components flows. To compensate for the reactive component, the mutual inductance store 5 is used, and to compensate for the active component

- a current transformer 3 and a potentiometer 9. After the initial current is compensated, test sample 15 is introduced into the measuring winding 12, the introduction of which causes a current imbalance in the secondary circuit, marked with the help of the 8 zero indicator. The reactive component of the current imbalance is due to the magnetic properties (magnetic susceptibility) of sample 15, and the active component is electrical

5 properties (conductivity). By varying the coefficient of mutual induction between the primary and secondary circuits by means of the mutual inductance store 5 and adjusting the active component of the secondary current using potentiometer 9, after a series of successive approximations of Bi.oBb, no current in the secondary circuit is obtained. A change in the readings of the mutual inductance store 5 is directly transferred to the magnetic susceptibility of the sample 15.1 The magnitude of the mutual inductance does not depend on ijOKa flowing through the primary circuit, and is completely determined by the magnetic susceptibility of the sample 15 and the constant magnetizing solenoid 7.

When calibrating the device measure 14 magnetic moment is placed on the spot

5 of sample 15, using the switch 6, turn off the magnetizing solenoid 7 and turn on the measure 14 of the magnetic sample in series with the primary winding 4 of the mutual inductance store 5. When an alternating current flows through the primary circuit in the secondary circuit, the oppositely directed EMF of the secondary winding 11 of the mutual inductance and EMF 5 shop is induced, due to the interaction of the alternating magnetic flux of the magnetic moment measure 14 with the measuring winding 12 and the secondary voltage of the secondary winding 10 of the current transformer 3. Change coefficient. mutual induction between the primary 4 and secondary 11 windings of the store 5 of mutual inductance and the active component of the current using a potentiometer 9, achieve a balance of amplitudes and phases induced in the secondary circuit of the EMF marked with

Claims (1)

Claim A device for measuring the magnetic susceptibility of samples of weakly magnetic substances, containing an AC source, the first output of which is connected in series to the primary winding of the current transformer and the primary winding of the mutual inductance store, and to the second output is the first output of the magnetizing solenoid, as well as a zero indicator, the first input of which is connected to two measuring windings connected in series with the secondary winding of the mutual inductance store and the secondary winding a current transformer, and the second input is connected to a tap of a potentiometer connected parallel to the secondary winding of the current transformer, characterized in that, in order to improve accuracy, a switch and a measure of magnetic moment are introduced into it in the form of a coil with a winding, the first output of which is connected to the second output of the source alternating current, the second output is to the first output of the switch, the second output of which is connected to the second output of the magnetizing solenoid, and the input to the primary winding of the mutual inductance store, while the measure agnitnogo points located inside one of the measuring coils.