DE947074C - Cast iron-nickel-aluminum alloys for permanent magnets - Google Patents

Description

Cast iron-nickel-aluminum alloys for permanent magnets Das Method according to the invention relates to the improvement of the magnetic Properties of cast iron-nickel-aluminum alloys, with or without additives on other alloy elements such as titanium, cobalt, copper, silicon and tantalum / niobium.

The improvement of the permanent magnetic properties of these curable Alloys is achieved by treating the melt with boron.

The treatment according to the invention can be carried out in such a way that a boron alloy is introduced into the melt. As a boron alloy, in particular Ferroboron proved useful. The ferroboron can contain 2 to 5011 / a, and Ferroboron, which contains 16% boron, has proven to be particularly suitable. Multiple ferroboron alloys also contain certain amounts of aluminum, for example from q. up to 5111m, and silicon, for example i%. These levels are not harmful, because the alloys to be produced are also aluminum and possibly silicon contain.

The method can also be carried out so that the melt with a reducible boron compound is treated. Such reducible boron compounds are for example: boron fluoride, boron iodide, boron chloride, calcium boride, borohydride and the like. like

Treatment of the melt with elemental boron, a boron alloy or a boron compound can be made in a variety of ways, most conveniently however, by putting the substances in the Melt are stirred in. Here For example, the procedure can be such that the substances are in a perforated Bell filled and with the help of this submerged under the melting mirror and be stirred there.

Permanent magnet alloys obtained using the boron treatment according to of the invention show versus those not treated with boron an increase in those properties that made them suitable for use as a permanent magnet alloy make it particularly suitable.

Claims (5)

PATENT CLAIMS: i. Process for improving magnetic properties cast iron-nickel-aluminum alloys, with or without the addition of others Alloy elements such as titanium, cobalt, copper, silicon and tantalum / niobium, thereby characterized in that the melt is treated with boron. 2. The method according to claim i, characterized in that the boron treatment by means of an introduced into the melt Boron alloy takes place. 3. The method according to claim i, characterized in that the boron treatment is carried out by means of a boron compound which can be reduced by the melt. 4. The method according to claim i and 2, characterized in that ferroboron is added will. 5. The method according to claim 4, characterized by an addition of ferroboron with 2 to 50 "/ o boron. Publications considered: Swiss patent specification No. 2o3 i85.