SU842661A1 - Device for determination of ferromagnetic material magnetic anisotropy - Google Patents

Description

(54) DEVICE FOR DETERMINATION OF CRYSTALLOGRAPHIC AXES OF FERROMAGNETIC MONO-CRYSTALLINE SPHERES

The invention relates to a measuring technique and can be used to determine the crystallographic axes of ferromagnetic single crystal spheres. A device for determining the crystallographic axes of ferromagnetic materials, comprising a frame, a capsule holder in which the oriented sample is placed, is known. Under the action of an applied magnetic field, the ferrite sample is rotated so that its axis of light Hc1 magnetization is oriented along the field lines. Then, pressing the sphere against the walls of the capsule, the latter is rotated at a certain angle (equal to the angle between the axes of easy magnetization of the oriented sample) and, having released the sphere, they are able to orient along the other axis of easy magnetization 1 The disadvantage of the known device is its low accuracy The purpose of the invention is to improve the accuracy. Either with the capsule and the sample, it is equipped with four guides, on each of which a permanent magnet is placed, while the guides are located on the frame, and the permanent magnets are mounted so that they can move along the guides. FIG. 1 shows the proposed device; in fig. 2 shows section A-A in FIG. 1. The device comprises a frame 1, a holder 2 capsules 3 in which an orientable sample 4 is placed, guides 5 to 8 and permanent magnets 912. The device works as follows. Guides 5 and 6 provide. moving the magnets 9 and 10 to the center of the bed 1, where the holder 2 of the capsule 3 is mounted. This increases the magnetic field at the location of the sample 4. The movement of the magnets continues until the ferrite sample rotates in the capsule 3 so that its axis easy magnetization was oriented along the magnetic field lines of force (the rotation of the sample was observed visually; then along the guides 5 and 6

Claims (1)

Claim A device for determining the crystallographic axes of ferromagnetic single crystal spheres, containing a frame, on which a holder with a capsule and a sample is mounted, characterized in that, in order to increase accuracy, it is provided with four guides, each of which has a permanent magnet, while the guides located on the bed, and permanent magnets are mounted with the ability to move along the guides.