SU1420561A2 - Apparatus for measuring static magnetic characteristics of ferromagnetic materials - Google Patents

Abstract

The invention relates to magnetic measurements. A device for measuring the static magnetic characteristics of ferromagnetic materials, for example, rod cylindrical samples, contains a magnetizing coil (K) 1, inside of which a magnetizing K 3 is placed on the rod 2 and the ferromagnetic sample under test (IFI) 4 is fixed, coaxially which are located measuring K 5-7. The rod 2 is connected with the mechanism of reciprocating oscillations and is located coaxially magnetizing K 1. A signal proportional to the magnetization is formed by measuring K 7, and a signal proportional to the gradient of magnetization by measuring K 5. The device has an increased accuracy of measurements, since the distribution of the magnetization gradient of the IFO 4 in the location area of measuring K 5, 6 is close to linear, their total electromotive force, with their slight shift to the right or left along the axis of the OX IFO 4, remains practically unchanged. 2 Il. S (l

Description

4 N3

About SP

O5

feed.1

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The invention relates to magnetic measurements, in particular to tests of ferromagnetic materials and measurements of their static magnetic characteristics on rod cylindrical samples, and is an improvement in the author. St. No. 1045181.

The purpose of the invention is to improve the measurement accuracy by installing an additional measuring coil, the displacement of which, together with the main measuring coil, compensates for the effect of this shift on the total signal emf. ; FIG. Figure 1 shows the mutual disposition of the magnetizing coil, the test ferromagnetic cylinder and the measuring coils when measuring static magnetic characteristics; in fig. 2 is a graph of the distribution of the magnetization gradient along the longitudinal axis of the test cylinder.

The device is made in the form of a magnetizing coil 1, inside of which the first measuring coil 3 is placed on the brush 2 and the test ferromagnetic sample 4 is fixed, coaxially with which the measuring coils 5-7 are located. The rod 2 is associated with a reciprocating oscillation mechanism (not shown) and is located coaxially with the magnetizing coil 1. A signal proportional to the magnetization is formed by the measuring coil 7, and a signal proportional to the magnetization gradient, the second measuring coil 5.

The device works as follows. : When performing with a small frequency and amplitude of linear reciprocating oscillations, the magnetized sample 4 relative to the measuring coils 5, 3, 7 induces variable EMF in them.

The signals of coils 7 and 5 are in phase, and the signal from the third coil 3 is in antiphase with them. Signals through operational amplifiers arrive at synchronous detectors and then to the inputs of the plotter. Before measuring operations, a gap of 2 liters is established between measuring coils 5 and 6. According to the measured length and diameter of the test sample, the gap is determined by the formula

(one)

five

0

five

0

five

V2 (2 / rt.2X, -3)

where / is the length of the cylindrical sample;

K is the ratio of length to diameter.

The dash-dotted line in FIG. 2 conventionally shows the location of the measuring coils 5 and 6 relative to the center O of the test sample. Since the distribution of the magnetization gradient of the sample in the zone of location of coils 5 and 6 is close to linear, the total emf of coils 5 and 6 with a small mixing of them to the right or left along the OX axis of the sample remains almost unchanged.

Claims (1)

Invention Formula A device for measuring the static magnetic characteristics of ferromagnetic materials according to the author. St. No. 1045181, characterized in that, in order to improve measurement accuracy, a fourth measuring coil is inserted into it, located inside the magnetizing coil coaxially with it, mounted on the frame of the first measuring coil symmetrically with the second measuring coil relative to the end of the first measuring coil and connected to the input of the first operating booster. dJM