DE687017C - Use of iron-nickel alloys for mass cores - Google Patents

Description

Use of iron-nickel alloys for mass cores' It is known that additions to magnetic alloys improve their properties even with small additions can significantly affect if the added metals or semi-metals are with the iron or nickel of the magnetic material to form mixed crystals or alloy compounds. It is Z. B. has been suggested, 5 to 61 / o antimony to add permalloy to make this material more brittle, i.e. for processing to make powder cores more suitable. It has also been suggested through additives the initial permeability of a few percent of chromium, molybdenum, tungsten, titanium and other metals of iron-nickel alloys, some of these additives are also intended to increase the Increase specific resistance.

The invention relates to a magnetizable iron-nickel alloy for mass cores with a nickel content of about 78% and possibly a cobalt content of about 3% and to which an addition of 0.1 to 50/0 lead or silver is added is. The addition of lead and silver causes, as surprisingly shown has an increase in the initial permeability over the alloys without it Addition, while the specific resistance through these additions at least not is humiliated. At the same time, the additives increase the brittleness causes the alloys according to the invention to be particularly suitable for mass cores do. These beneficial effects are likely due to the addition of lead or silver be due to the fact that these additives deal with the base metals and the Magnetic alloy does not alloy at all or only to a limited extent by using it form a miscibility gap with the iron or alloy in the liquid state.

Iron-nickel alloys with metallic additives, such as B. Silver, not completely in solution, are indeed the subject of one older patent not belonging to the state of the art, but these should Alloys in solid form are used for such purposes where in the field weak magnetic fields constant permeability is required. Here will be Obtained values of the initial perineability on the order of several iooo. In contrast the invention relates to alloys which are used for mass cores should and have an initial permeability of only about 100.

For example, a mass core made of Permalloy (about 781 /, nickel, Remainder iron) with 0.5% lead addition, a permeability of 10 and an eddy current loss of 42 / H, while pure Permalloy, in the same `` '' ice to powder cores processed, with the same heat treatment only a permeability of about 8o resulted in approximately the same eddy current loss. At the same time it could be mixed with lead Due to its greater brittleness, it is much easier to shred the material than the pure material.

For a magnetic alloy of 78 '/, nickel, 18' /, 1/0 iron, 3 "/ o cobalt also showed better results with the 10/0 addition of lead than without one.

Claims (2)

PATENT CLAIMS: i. The use of magnetizable iron-nickel alloys Uses about 78 per cent nickel, 0.1 to 5 per cent silver or lead, the remainder iron of mass nuclei with an initial permeability of about loo. 2. The use of a Alloy according to claim i, in which about 3% of the iron is replaced by cobalt, for the purpose according to claim i.