PL36754B1 - - Google Patents

Description

The subject of the invention is a method for measuring the coercive magnetization intensity of a magnet based on the principle of the decay of the normal component of the field produced by the tested magnet and a related measuring device. The sample under study, magnetized to the saturation state, is placed in the central part of the solenoid in the holder in such a way that the field generated by it degausses the sample. The resultant field of the solenoid and the magnet always has a component normal to the axis of the magnet, which coincides with the axis of the solenoids. This component disappears only when the magnetization disappears. The value of the magnetic field needed to produce the above state is the desired coercive intensity, which is calculated from the ampere turns. An image is used to detect the normal field component. The advantage of the above method over others is that the test magnet does not have to be in a closed magnetic circuit and the measurement is performed without the use of a ballistic galvanometer. As a result, the measurement of the coercive force is performed quickly and in a manner that does not require skilled force. In addition, this method can test magnets of various sizes and shapes, which cannot always be achieved with other measuring methods. The measuring range is from a dozen to 1,200 oersted. An example of a constructional solution of the device is shown in Fig. 1 in longitudinal section, and in Fig. 2 in front view. The example consists of the solenoid 1, mounted in two stands 2, which are screwed to the base plate 3. On one side of the solenoid, the base plate 3 is equipped with the device jlrz ^ str ^ sg ^ 4 "allowing for the longitudinal and transverse traverse of the jib 5, on which a special holder 6 is attached for the magnets under test. The holder is designed in such a way that it allows the jamming of magnets of various sizes (diameters up to 40 mm) and shape - the centric position of the magnet is always ensured. - - '"I iv] The jib 5 is fixed on the shifting device 4 by means of a yoke 7 and a screw 8, ¦ which enables a quick sample change. On the other side of the solenoid, an extension 9 is mounted on the analogous shifting device 4, in which the shaft 10 is located, driven by the motor 11. The shaft 10 is mounted on one side of the coil 12, and on the other side of the collectors 13, to which the ends are led, the coils 12. On the boom 9, the brushes 14 are mounted. around the * "" Axis "" "fight and connected with a millivoltmeter. All parts are made of non-magnetic materials, except for the motor 11, located at such a distance from the solenoid that its iron parts and currents flowing in it do not affect the distribution of the magnetic field in the solenoid . PL

Claims (3)

Claims 1a, produced by the tested magnet by demagnetizing the latter. 2. The method according to claim A method according to claim 1, characterized in that the normal component is determined by a rotating coil, in which the appropriate voltage is induced. 3. A measuring device for carrying out the method according to claim 1., characterized in that it contains a solenoid (1), inside which there are two arms (5, 9), one of which ends with a jaw holder (6) for fixing : the tested magnet, the second is used to obtain a rotational fight. coil (W), coil (12), motor driven. \ ktem (U). % ,, / 4. Measuring device according to claim 3, characterized in that the rotating shaft (10) has a collector (13) to which the coils "" f 12) are connected, "to rectify the voltage induced in this coil, with the collector (13). ) cooperating with adjustable brushes (14) connected to a millivoltmeter. 5. The measuring device according to claim 3, characterized in that the booms (5, 9) are placed on the support devices enabling longitudinal and transverse travel both the coil (12) and the tested magnet, usually positioned in the center of the solenoid (1). Press "St-gród, 4374 - 29.9.54 - R-5-17542 - * - and BI bezidrz. 100 g 100. PL