SU479061A1 - Apparatus for testing samples of hard magnetic materials and permanent magnets - Google Patents

Description

one

The invention relates to the field of monitoring the magnetic properties of permanent magnets and can be used to control the magnetic parameters of cast anisotropic textured high energy permanent magnets based on rare earth metal compounds with cobalt.

The known devices for testing samples of solid materials, containing a magnetic induction sensor with Hall voltage transducers, have a reduced accuracy due to the presence of a through gap in the magnetic system that violates the condition of a substitute for magnetic circuit, and a complicated circuit.

The proposed device is equipped with a plate of magnetically hard textured material, which is a continuation of the test sample along the length and has in its middle part a narrow transverse slot, IB of which ino the plate center is placed ino the plate converter connected to the recording device, and the connection of the Hall converter and the plate is one-piece .

FIG. Figure 1 shows a schematic of an apparatus for testing samples of hard magnetic materials and permanent magnets; in fig. 2 shows software AA-A in FIG. one; FIG. 3 is a section along BB in FIG. one.

A device for testing samples of hard magnetic materials contains a source 1 of a magnetizing and demagnetizing field acting on the subject

sample 2, the sensor 3 of the magnetic field of the magnetic field and the magnetic induction sensor containing a Hall electromotive transducer 4, and a hollow plate-insert 5 of a hard magnetic material, clamped between one

from the poles of the sample and the source, the field with the coils 6 so that the plate is an extension along the length of sample 2, and the Hall EMF transducer 4, reinforced at its center, is located perpendicular to the field on the axis (Fig. 2 and 3) and the recording device 7

The plate is made of two symmetrical halves, cut across from one of the samples of the test batch of magnets,

and interconnected. The slit width A is chosen to be 0.5 mm.

It is known that in a fairly narrow transverse to the field of the cave (1st kind), carved in ferromagnetic bodies, magnetic

I1N1DU1KShchI in the body of the wattles in the cave Vd are equal to each other according to Maxwell's equation

div Oh, i.e., W B (1). In magical materials, when the magnetic permeability is 1, in order to comply with the conditions (1) required in measuring the magnetic induction of the sample, (1) the width of the cave is necessary. As a result, the equation for measuring the magnetic induction in a sample at any time of the test has the form B (/) - ((O is the EMF at the output of the Hall converter; t is the time; / iconst is the sensitivity of the Hall EMF transformer calibrated with the plate. Control of the samples is possible with sufficiently small sizes of manufactured Hall EMF converters (for example, 1X1; 5X0.2 mm) and the cave cross-sectional area. The device works as follows. A test sample and a magnetic induction sensor, consisting of a magnetic hard plate 5 and the Hall EMF converter 4, connected to the device 7, is aligned with the axis of the source poles and mechanically clamped between them. On the sample 2 in its middle part, a probe is installed with the Hall voltage sensor of the field voltage sensor, including power supply The sample under test is magnetized to saturation. After turning off the power, a readout of residual induction B in the sample is immediately made on the instrument 7. After turning on the power supply, the coils of negative polarity ensure the sequence The reversing values of the reverse voltage Pol Hl measured by sensor 3, according to instrument 7, the corresponding values of magnetic induction Si, BZ, ..., B are counted, the aggregate of which is used to construct the demagnetization curve. The coercive force of the sample H is determined at the time that — when device 7 shows a bullet. When a sample is quasi-static from the source of an infra-low frequency, the Hall EMF transducers, floor sensors and magnetometers are connected to the corresponding inputs of a two-coordinate recorder (for example, PDS) or an electron-beam indicator (for example, I-10) and a full hysteresis loop is recorded, which determines the value of the desired magnetic parameters. The latter can be done in any other modes of magnetization reversal. Subject of the invention. A device for testing samples of magnetically hard materials and permanent magnets, comprising a source of a magnetizing and demagnetizing magnetic field, a test sample, a magnetic field strength sensor and a magnetic induction sensor on a Hall EMF converter, a recording device, characterized in that, in order to improve the accuracy and simplify the measurements, it is equipped with a plate of magnetically hard textured material, which serves as a continuation of the test specimen along its length its part is narrow transverse to the field slot, in which the center of the plate contains the specified Hall transducer connected to the recording device, and the connection of the Hall transducer and the plate is one-piece.

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