DE1104195B - Deformable, corrosion-resistant cobalt-chromium alloys - Google Patents

Description

Deformable, corrosion-resistant cobalt-chromium alloys The in the technology used cobalt-chromium alloys, the z. B. under the name Stellite Commonly used and in addition to cobalt as the main component are chromium and in some cases also contain tungsten, molybdenum and other metals, are generally heavy processable and in most cases can only be deformed in the heat. Next to The difficult workability also results from the limited corrosion resistance Restrictions on broad technical use of these materials.

It has now been found that the deformability and also the Significantly improve the corrosion resistance of alloys based on Kofialt Chromium if ruthenium is added as a third basic component to such alloys. Although ruthenium metal is extremely brittle and practical under technical conditions is not deformable at all, result from appropriate coordination of the contents of the three basic components surprisingly materials that are also compared Easier than cobalt-chromium alloys and, in particular, can be deformed in the cold are. In addition, it has been shown that correspondingly composed alloys on Base cobalt-chromium-ruthenium according to the present invention an excellent Possess corrosion resistance and practically against all technically occurring resistant to aggressive agents.

The malleable and corrosion-resistant alloys according to the present invention Invention consist of 29 to 45% cobalt, 20 to 4019 / o chromium and 20 to 5019 / o Ruthenium. For processing by cold forming, e.g. B. by rolling, pulling or pressing, such alloys have proven to be particularly suitable that with a content of 30 to 40% cobalt and 25 to 35% chromium, 30 to 40% ruthenium contain. It has also proven to be useful in the composition the alloy also has an increasing content of ruthenium to be assigned to cobalt and a decreasing content of chromium.

According to another embodiment of the present invention can the ruthenium in the alloy is partially replaced by other platinum group metals are, however, the proportion of these other metals not more than 10% of the Ruthenium content should be. Up to a certain. The scope is iron and nickel to be regarded as equivalent to cobalt, so that these two metals in the alloys according to the invention are able to partially replace the cobalt, up to 15% the cobalt content of the alloy. Instead of chromium, metals of the V. or VI. Subgroup of the periodic system step individually or together. It deals The metals vanadium, niobium, tantalum, molybdenum and tungsten. It should the chromium only up to 10% of the proportion of chromium contained in the alloy be replaced by the aforementioned metals.

Below are examples of the composition of some alloys listed, which is characterized by particularly good deformability with excellent corrosion resistance distinguish: 1. 38% cobalt, 2619 / o, chromium and 36% ruthenium. 2. 35,519 / o ruthenium, 38.5% cobalt and 26% chromium.

3. 30% cobalt, 23% chromium, 40% ruthenium, 519 / a nickel, 1% vanadium, 1% molybdenum.

Claims (5)

PATENT CLAIMS: 1. Deformable, corrosion-resistant cobalt-chromium alloys, characterized in that they consist of 20 to 45% cobalt, 20 to 4019 / o chromium and 20 to 5019 / o ruthenium. 2. Alloys according to claim 1, consisting of 30 to 4019 / o cobalt, 25 to 35% chromium and 30 to 40% ruthenium. 3. Alloys according to claims 1 and 2, characterized in that up to a tenth of the ruthenium content is replaced by one or more platinum group metals. 4. Alloys according to Claims 1 to 3, characterized in that the cobalt makes up to 15% of its share is replaced in the alloy by nickel and / or iron. 5. Alloys according to claims 1 to 4, characterized in that up to 10% of chromium is present in the alloy by the metals vanadium, niobium, tantalum, molybdenum or tungsten individually or too several is replaced.