DE647330C - Magnetic nickel-iron alloy - Google Patents

Description

Magnetic Nickel-Iron Alloy The invention relates to ferromagnetic alloys Body made of alloys on the nickel-iron basis, which have the highest possible constancy the initial permeability should have the highest possible permeability values. According to the invention, alloys with over 700, 'o Nickel is used, to which tungsten is added in larger quantities.

It is already known per se to add tungsten to magnetic alloys, and this addition generally plays no role with regard to the constancy of the initial permeability; For example, tungsten has been added to magnetic alloys in amounts of up to about 0.50, in order to thereby increase the specific electrical resistance. It has also been proposed to add to alloys with iron and 30 to 70N nickel to increase the electrical resistance and the magnetic stability of tungsten in amounts of 1 to 20%. One of these alloys, which are said to be particularly suitable for the magnetic loading of telephone lines, is z. B. composed of 65% nickel, 29% iron and 60, o tungsten. The initial permeability is around 1855 and is constant at 2.46% up to 0.02 [Oerst: ed]. There are also alloys known which contain molybdenum in addition to iron and nickel and have high absolute values of the permeability, but also have an insufficient constancy of the initial permeability for many purposes.

In order to achieve a further constancy of the initial permeability, hitherto one had to rely on the alloy in a comparatively large quantity Add cobalt (5 to 8o ojo). In this context there is already another Addition of tungsten has been used to increase the electrical resistance of the alloy to increase; in this case too, @es is an alloy with a pretty high content of the relatively expensive cobalt.

Surprisingly, it has now been found that even without a cobalt content or when using a significantly lower amount of cobalt, results are obtained which not only achieve the results previously only achieved with cobalt-rich alloys with regard to the constancy and level of the initial permeability, but also exceed them . According to the invention, magnetic bodies, in which the greatest possible constancy of the initial permeability is important, are made of a nickel-iron alloy with over; o 0'o nickel produced, which contain an amount of 0.5 to 10 o; o tungsten and, in addition to the residual iron consisting of iron, at most as impurities. Such alloys achieve a constancy of the initial permeability that has so far only been achieved with alloys rich in cobalt. The cobalt content previously regarded as necessary for this purpose is therefore completely replaced by the addition of tungsten in an alloy composed according to the invention. However, those alloys can also be used advantageously in which cobalt is used for part of the tungsten content; in this case, however, the cobalt content represents a smaller proportion of the total alloy than is the case with the known cobalt-rich alloys with constant initial permeability.

In the known ferromagnetic alloys in addition to 0.5 (10 tungsten similarly large quantities of elements. Copper, aluminum, silicon, Chromium, titanium and the like are only present in quantities in the finished bodies according to the invention present that do not go beyond impurities.

<-11s Examples of the alloy to be used according to the invention is given below a tabular list of alloys in which the tungsten content 0 the nickel content above; o to So is o''o and the remainder is iron. Alloy initial rise Examples permeability of the Permeal) ilitfit J 7 201 @ N1 about I. to o, i Oersted ° ' 24 0 Fe @ 3 0, `@ J about 8 ° o B 77 Ni 3400 to 0, i Oersted 20 "i Fe The magnetic values in this table show that the increase in the initial permeabilities, in spite of their high values, is within limits that are powers of ten greater than the limits previously reached with other alloys.

The resistivity of the alloy -, @ en: `:. painted .; the invention is larger than that of other magnetic ones due to the addition of tungsten Alloys, e.g. B. the known iron-nickel-cobalt alloys, in which the specific resistance even decreases somewhat with increasing cobalt content. The rollability of the alloys to be used according to the invention is good, so that in particular Sheets for transmission cores, transducers and the like can easily be made from them, especially with the well-known heat treatment, in which the material is annealed in an oven and let it cool down in it.

Claims (3)

PATI: \ T: 1 \ SPRL cli.R i. Magnetic alloy, characterized by the following composition: more than 7o to at most cgo (?, 'O nickel, 0.5 to 100o tungsten, remainder iron. 2. Alloy according to claim i, characterized by the following composition over 70 to So °, 'o nickel, tungsten, remainder iron. 3. Alloy according to claim i or 2, characterized in that a part of the tungsten, but less than 5% of the total alloy, is replaced by cobalt is.