TH40874B - Anisotropic radial ring magnet And methods of production - Google Patents

Abstract

DC60 (13/11/46) An isotropic radial ring magnet that provides good magnetic characteristics and has, across the entire magnet, an angle of 80° to 100° between its axial diameters. and the direction of transmission radial anisotropy It is produced by a single powder feeding operation. and operation one time recording A radial anisotropic ring magnet that provides good magnetic characteristics and has, across the entire magnet, an angle of 80° to 100 ° between its axial dia. and the direction of transmission radial anisotropy It is produced by a single powder feeding operation. and operation one time recording

Claims (9)

Disclaimers (all) that will not appear on the advertisement page: 1. A method of producing radial anisotropic ring magnets in which the magnetic powder is The packing is compressed into a cavity in a cylindrical magnetic forming mold with a core consisting of at least the Of a ferromagnetic magnetic material with a saturated magnetic flux density of at least 5 kG was extruded under the feed The magnetic field determined by the vertical compacting process of the horizontal magnetic field, the method of which consists of steps of Perform at least one of the following operations (ii), (iv), and (v) to feed a magnetic field. Magnetic powder from a certain amount of direction rather than one direction by rotating the magnetic powder relative to The magnetic field generated by the coil (ii) rotates the magnetic powder at a predetermined angle in the circumferential direction of the mold followed by the feed of the magnetic field, then re-feed the magnetic field (iv) rotates the coil that generates the magnetic field. To the specified angle in the direction along the perimeter of the mold Compared with the magnetic powder followed by the input of a magnetic field. Then re-feed the magnetic field and (v) use a number of coils pairs to feed the magnetic field first with one pair of coils, then feed the magnetic field with the other coils pair. One operation from operations (ii), (iv), and (v) before the rotation function only. Before the compression operation, the magnetic powder was rotated at 60 to 120 ํ under the feed of a magnetic field formed by Coil is at least 0 but less than 0.5 kOe, the subsequent magnetic field is from 1/20 to 1/3, as large as First entered magnetic field The extraction of magnetic powder during or after subsequent feeding of the magnetic field and the acquisition of a radial anisotropic radial ring magnet with constant magnets at an angle of 80 to 100 ํ between their centers. And radial anisotropic transmission direction 2. A method of production of radial anisotropic ring magnets according to claim 1, where the magnetic field is generated by the vertical compacting of the horizontal magnetic field just before or during compression. Is from 0.5 to 3 kOe. 3. Methods of producing radial anisotropic ring magnets in which the magnetic powder The packing is compressed into a cavity in a cylindrical magnetic forming mold with a core consisting of at least the Of a ferromagnetic magnetic material with a saturated magnetic flux density of at least 5 kG was extruded under the feed The magnetic field determined by the vertical compacting process of the horizontal magnetic field, the method of which consists of steps of Perform at least one of the following operations (ii), (iv), and (v) to feed a magnetic field. Magnetic powder from a certain amount of direction rather than one direction by rotating the magnetic powder relative to The magnetic field generated by the coil (ii) rotates the magnetic powder at a predetermined angle in the circumferential direction of the mold followed by the feed of the magnetic field, then re-feed the magnetic field (iv) rotates the coil that generates the magnetic field. To a fixed angle in the direction along the circumference of the mold Compared with the magnetic powder followed by the input of a magnetic field. Then re-feed the magnetic field and (v) use a number of coils pairs to feed the magnetic field first with one pair of coils, then feed the magnetic field with the other coils pair. One operation from operations (ii), (iv), and (v) before the rotation function only. Before the compression operation by rotating the magnetic powder at 90 ํ without magnetic field, the subsequent magnetic field is 0.5 to 3 kOe, which is less than the magnetic field that is fed during extrusion. The extraction of magnetic powder after subsequent feeding of the magnetic field and the acquisition of a radial anisotropic radial ring magnet with a constant magnet at an angle of 80 to 100 ° between its center axis. And radial anisotropy transmission direction 4. Method of production of radial anisotropic ring magnets according to one of the claims 1 to 3, where if the loaded magnetic powder is rotated, that rotation is transported. The result is by rotating at least the axis, template, or punch of the mold in a direction along its circumference. 5. Methods of production of radial anisotropic ring magnets according to one of the claims 1 to 3, where, if the loaded magnetic powder is rotated after the feed of the magnetic field, The ferromagnetic core and the magnetic powder have a residual magnetization value of at least 50 G and the magnetic powder is rotated by the axis rotation. In circumferential direction 6. Methods of producing radial anisotropic ring magnets according to one of claims 1 to 5, where an anisotropic radial ring magnet has a specified degree. Powder average direction Magnetic relative to the radial direction is at least 80% on the plane perpendicular to its center axis. 7. Methods for producing radial anisotropic ring magnets according to claim 6, where radial anisotropic ring magnets have a length in the direction of the center axis and the side diameter. In such a way that the length divided by the inner diameter is at least 0.5 8. Method of production of radial anisotropic ring magnets according to claim 6, whereby radial anisotropic ring magnets are stretched in an axial direction. 9. Anisotropic radial ring magnet was obtained by means of claim 8.