SU419824A1 - METHOD OF MEASUREMENT OF COERTSIVE FORCE OF A MAGNETIC MEDIA - Google Patents

Description

The invention relates to the field of instrumentation, in particular to methods for determining the properties of magnetically rigid materials, in this case, wires and tapes. Methods are known for measuring the coercive force of a magnetic carrier made of magnetically rigid materials. When measuring by known methods, it is necessary to destroy the carrier to isolate a section of a certain length onto which the winding can be wound, and place it in a sufficiently strong field to measure. These methods are not accurate enough, since in this case, destroying the sample and isolating only a relatively small area , it is impossible to accurately determine the accuracy of the results obtained when measuring. In order to increase the accuracy of measurements and eliminate the need to destroy the measured magnetic carrier during such measurements, a method is proposed by which the measured area, after the end of each pulse with increasing amplitude, mix, longitudinally, determine the direction of the residual magnetization of this area and set its initial position, with the areas adjacent to the measured, shielded from the magnetic field. The drawing shows a scheme for measuring the magnetic carrier of the coercive force according to the described method, where 1 is the magnetic recording carrier; 2 - parts of space in which the magnetic field is negligible; 3 - the space in which magnetization and demagnetization of the magnetic carrier section occurs, limited by the zone located between positions 4 and 5; 6 - indicator of the direction of magnetization of the measured section of the magnetic carrier; 7 - magnetic screens; 8 shows the direction of the stirring of the magnetic carrier to determine the direction of the residual magnetization of the region located between positions 9 and 10; 11 - magnetic field during magnetization and 2 - direction of the magnetic field during demagnetization. To measure the coercive force of the area between the positions 4, 5, it is installed in space 3 and a magnetic field is created in this space, which is applied along the carrier, for example, arrow 11. The value of the field is close to the value of carrier saturation. In connection with the presence of shielding of adjacent areas, the magnitude of the magnetic field in this case is negligible and all can be disregarded when measuring. After the saturation of the field in the same space 3 is turned off, a reverse direction (demagnetizing) field is created, the value of which is also the minimum value of the range of measured coercive forces. After this field is turned off, the carrier is moved longitudinally so that the measured area falls into the indicator area, the direction of the residual magnetization of the area is determined, and then it is returned to its original position. Next, create a saturating field again, turn it off and already demagnetize the field of greater magnitude, then move and measure again. Thus, the register of a dead cycle in which the sign of the magnetization changes and, besides the magnitude of the demagnetizing field in space 3, determine the coercive force of the magnetic carrier. Subject of the Invention A method for measuring the coercive force of a magnetic carrier in a constant magnetic field made of a magic hard material by repeatedly magnetising it with an alternating field, the pulses of one sign of which have a constant amplitude close to the value of the carrier saturation, and the amplitude of the pulses of the other sign increases from the previous one further, characterized in that, in order to improve measurement accuracy and eliminate the need to destroy the measured magnetic carrier, the measured portion After completion of each of the pulses of increasing amplitude are moved longitudinally determined direction of residual magnetization portion and before the next pulse is set to its original nolozhenie, while portions adjacent to the measured emym, shielded from exposure to the magnetic field.

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