DE1758594C2 - Layered composite material for coins - Google Patents

Description

The invention relates to a composite material for coins, in addition to that of coins demanding properties, such as color that is difficult to imitate, good sound, high density, good corrosion resistance, also have machine security and increased wear resistance.

Tn the earlier published application F 15 58 703.8-24, which does not belong to the state of the art has already been shown that a composite material made of a non-magnetizable copper-nickel alloy with a core made of nickel all the requirements to be met by a coin, including higher ones Machine security fulfilled to an excellent degree and also offers the advantage that the return scrap fully again for the production of the non-magnetizable portion of the coin material combination concerned can be used, the composition of the alloy only by adding appropriate Metal components, especially copper, to the original composition of the copper-nickel alloy needs to be coordinated. In this composite material it is considered to be non-magnetizable Share a binary copper-nickel alloy with 5 to 60%>, preferably 15 to 30%, nickel used. Alloys of this basic composition with additional contents of zinc, manganese, Iron and / or silicon in the plating is not a hindrance and the alloy is not magnetizable making quantities can be used with the same advantages. Manganese and iron are in this In this case, of course, only add small amounts that do not make the alloy magnetizable.

Favorable combinations are e.g. B. those made from the binary copper alloy with 15 to 30% nickel and a nickel core. With these combinations, the return scrap is with the addition of small amounts of copper can be used again for the production of the same material combination. These copper-nickel alloy top layers also have the advantage that they are well-tried coin alloys, which in terms of abrasion resistance, corrosion resistance, Color, grip and sound fully meet the demands placed on a coin material must correspond.

It has now been found that such a composite material according to the earlier application pus layers, which on the one hand consist of a non-magnetizable copper-nickel alloy from 5 to 60%, preferably 15 to 30%, nickel and optionally zinc, manganese, iron and / or silicon in quantities that do not prevent plating and make the alloys non-magnetizable, The remainder is copper and nickel, on the other hand, for vending machine-proof coins with increased abrasion resistance particularly suitable if the two cover layers are now made of magnetizable nickel, which are preferably of the same thickness as one another, and the thicker core consists of the non-magnetizable core Copper-nickel alloy is made.

Except for the higher abrasion resistance of the Nikkeis compared to the copper-nickel alloy This is also an advantage due to the essential

ίο simplification of the manufacturing process and thus the reduction in manufacturing costs. The application of thinner layers on top of a thicker one Core is because of the different work of deformation that occurs during plating for core and cover layer easier to perform than that of thicker facings onto a thinner core. The magnetizable Layers are becoming thinner and thinner in such coin materials that are safe for machines Be layers.

The two-sided application of the two nickel layers on the alloy layer as the core can done by cold or hot rolling. However, it is of particular advantage to have the nickel layers in In the form of a correspondingly thick nickel plating to be applied electrolytically or chemically and then the applied layers by cold forming, in particular cold rolling and diffusion annealing, to condense.

Claims (3)

Patent claims: 1. Laminated composite material for coins made of nickel and a non-magnetizable copper-nickel alloy from 5 to 60%, preferably 15 to 30%, nickel and optionally zinc, manganese, iron and / or silicon in the plating non-hindering and non-magnetizable amounts of the alloy, remainder Copper, characterized in that a thicker layer of the non-magnetizable Copper-nickel alloy serves as the core of the composite material, which is coated on both sides with nickel is plated. 2. Composite material according to claim 1, characterized in that the two clad layers are equally thick. 3. Composite material according to claim 1 or 2, characterized in that the nickel layers applied by electrolytic or chemical nickel plating and by subsequent cold forming and glow are condensed.