SU940094A2 - Device for measuring energy losses for ferromagnetic material rotational reversal of magnetization - Google Patents

Description

(54) DEVICE FOR MEASUREMENT OF ENERGY LOSSES FOR ROTATIONAL MAGNETIZING. Ferromagnetic Materials The invention relates to the measurement of the physical properties of materials by electromagnetic methods and can be used in the electrical industry. According to the main auth. No. 706803, a device is known for measuring the energy loss of the rotational magnetization of ferromagnetic materials. fishing This device consists of a solenoid, which is rigidly fastened to an elastic suspension through a rod. An arrow is attached to the rod located above the scale, which is fixed independently of the moving system solenoid suspension. A shaft is connected to the bottom of the solenoid hole, which connects the mandrel for placing the sample with the electric motor. A disadvantage of the known device is that the main information when measuring ferromagnetic samples in rotating magnetic fields is the dependence of the energy loss on the strength of the magnetic field at fixed frequencies of rotation or on the frequency of magnetization reversal at fixed intensity of fields. In either case, curves using a known device have to be built on separately measured experimental points. This slows down the measurement process and, with a large number of test samples, makes it very time consuming. The purpose of the invention is to increase the measurement speed. This goal is achieved by the fact that a device for measuring the energy loss on rotational magnetization of ferromagnetic materials, containing a constant field source, a motor for sample rotation, and a torque meter, consisting of an arrow, index, limb, elastic suspension Q by the source the floor, rigidly connected with the pointer and mounted on an elastic suspension, is additionally equipped with an annular potentiometer, which is fixed on a fixed scale coaxially with an elastic suspension, and the sliding contact The potentiometer and the pointer are attached to a metal disk, which is tightly seated on the rod and placed between the poles of the damping magnet. The drawing shows the proposed device. The device contains a source 1 constant magnetic field (solenoid;, rod 2, elastic suspension 3 arrow pointer C, scale 5, test sample 6, mandrel 7, shaft 8 electric motor 9, metal disk 10, potentiometer P, sliding contact 12 of potentiometer , damping permanent magnet 13. U - power supply potentiometer voltage - a voltage proportional to the angle of rotation of the elastic suspension supplied to the recorder (not shown). Source 1 through rod 2 is rigidly fastened with elastic suspension 3-Above solenoid 1 independently from mobile si The solenoid-suspension is mounted on a scale 5 on which an annular wire potentiometer 11 is attached coaxially to the rod with a linear dependence of resistance on the angle of rotation. A metal disk 10 is attached to the rod 2 in its upper part, to which the sliding contact 12 of the potentiometer and the pointer are attached. passes between the poles of the permanent magnet. 13. A shaft 8 passes through the bottom of the solenoid 1 and connects the mandrel 7 to place the test sample 6 with the electric motor-9. The end contacts of potentiometer 11 are connected to a DC power supply UQ. Sliding contact 12 through elastic suspension 3 is brought to the terminal for recording the voltage Uyg. The device works as follows. The test sample 6 in the form of a disk is placed in the mandrel 7, turns on the electric motor 9 and establishes a certain constant speed of rotation of the sample. Direct current is connected to source I. 4 From the interaction of the external field and the sample 6, a rotational moment or a mechanical moment arises, which causes the rotation of solenoid 1 through an angle proportional to the amount of energy loss due to the rotational magnetization reversal of the sample under study. The magnitude of the deviation of the solenoid 1 from the initial position is registered and MOTORED by an arrow pointer is counted on a scale of 5. However, since the sliding contact 12 of the potentiometer turns to the same angle as the arrow pointer 4, the voltage also changes by proportional to the angle of rotation of the solenoid. The damping magnet 13 thus excludes random oscillations of the recording system. Thus, there is an electrical signal that is ultimately proportional to the loss of energy for the rotational magnetization reversal, which can be fed to a vertical scan of a two-coordinate recorder. A horizontal scan of the recorder is given a signal proportional to the magnitude of the magnetic field in the solenoid (supply current), and the curve of the dependence of the energy loss on the rotational magnetization on the external field intensity is recorded directly. Thus, the addition of a device with a potentiometer fixed coaxially with the mobile system and independently of it, and a metal disk with a damper, a sliding contact of the potentiometer and an indicator arrow rigidly connected to the solenoid, provides complete information about the process of rotational magnetization of the sample in 2 -3 min, which is approximately faster than when using a known device. At the same time, the possibility of subjective errors is eliminated. The invention is a device for measuring the energy loss on the rotational magnetization reversal of ferromagnetic materials according to ed. N ° UBYOZ is characterized in that, in order to increase the measurement speed, it

additionally equipped with an annular potentiometer, which is fixed on a fixed scale coaxially with an elastic suspension, and the sliding contact of the potential of the OOE

The meter and the pointer are attached to a metal disk, which is tightly seated on the rod and placed between the poles of the damping magnet.

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Claims (1)

Claim Device for measuring energy losses due to rotational magnetization reversal of ferromagnetic materials according to ed. No. 706803, which implies that, in order to improve the measurement performance, it 5 940094 6 is additionally equipped with a ring potentiometer, which is mounted on a fixed scale coaxially to the elastic suspension, and the sliding contact of the potentiometer and the arrow-pointer are attached to a metal disk, which is tightly mounted on the rod and placed. between the poles of a damping magnet.