DE889520C - Use of gold alloys for potentiometers - Google Patents

Description

Use of gold alloys for potentiometers Addition to, patent 063714 In the patent 863 714 the use of gold-vanadium alloys of the Composition o, i bis. 15%, especially 0.5 to 6%, vanadium and the remainder gold for Parts of potentiometers described. These alloys bring significant advances of which the 'high specific resistance is particularly surprising.

Upon further investigation of the gold-vanadium alloys - now found that these alloys can be made even more substantial by the addition of other metals can improve. without the valuable property of the strikingly high electrical To influence resistance, by adding the metals iron, nickel and Manganese. According to the invention, alloys are used for the production of potentiometer parts the composition 0.1 to 6%, preferably 1 to 2% vanadium, 0.1 to 10% iron and the rest of the gold used. Instead of iron, o, i Abis 51 / o may be used Nickel or 0.1 to 5% manganese; gold-vanadium alloys are advantageous two or three metals of the iron-nickel-manganese group are added at the same time, and in such a way that their total amount is 0.2 to 15%.

The addition of the metals mentioned, in particular: addition of manganese and iron, facilitates the manufacture of gold-vanadium alloys. The multicomponent alloys can also be effortlessly in larger amounts without: special precautionary rule melt and; Likewise .easily to pour flawless ingots, -that are through a are characterized by remarkably good workability. It is not necessary to be special Care should be taken to ensure that the vanadium is evenly introduced into the melt .to achieve and to avoid that: by -oxidation- or slagging a part vanadium is lost and the cast piece has pores.

The addition of iron to the gold van: adin alloys continues to bring the progress that the already high specific resistance increases even more.

Nickel to a large extent requested the strength of the gold-vanadium alloys. One: The addition of Ni16ke1 alone now lowers the specific resistance a little; this effect is restored by adding iron or manganese at the same time canceled. Therefore, four and five-component alloys are available as potentiometer alloys special advantages that in addition to gold, vanadium and nickel also iron or manganese or contain both metals.

Some examples of the new potentiometer alloys are given below: Composition Specific tensile strength Resistance in tough (in percent) ohm # mm2 . State Au IVI Fe I Ni 1 Mn m kg / mm2 _ 93 2 '.. 2 3 .. o'76 66, 2, 93 2 3 - 2 1,1_ 66, o g1 2 3 2 2 r, o6 84.5 . 9 1 2 5 2 - 1.16 69, o The valuable properties of the alloys described are retained if -they also contain copper in amounts of 0.1 up to about 5% as a further component.

Claims (5)

PATENT CLAIMS: i. The use of gold-vanadin alloys for Parts of potentiometers according to Ratent 8,63, 74, characterized, that alloys the composition 0.1 to 6%, preferably 1 to 2% vanadium, 0.1 to 10% iron and the rest of gold can be used. 2. The use of alloys with .the composition according to claim i, in which, however, the iron content is replaced by 0.1 to 5% nickel- is for the purpose mentioned in claim i. 3. The use of alloys with the composition of claim i, wherein; but the; Iron content by o, i up to 5% manganese is replaced for the purpose mentioned in claim i. 4. The use of alloys with the composition according to claim i, but which in place of the Iron has a content of o; 2 to 15% of two or three metals from the iron-nickel-manganese group for the purpose mentioned in claim i. 5. The use of. Alloys with the composition according to claim i to 4 -with the proviso that it still has one Addition of 0.1 to 51% copper was required; ° for the purpose stated in claim i.