DE564202C - Iron-free metal alloy containing molybdenum, tungsten, and carbon produced by melting - Google Patents

Description

Iron-free, molybdenum, tungsten and carbon produced by melting Containing Metal Alloy The invention relates to obtained by melting iron-free, tri-material and multi-material metal alloys with a high melting point, which particularly distinctive properties in terms of strength and toughness and hardness and do not lose these properties even at high temperatures. You will therefore find everywhere there, e.g. B. for machining hard and very solid Bodies, use where other materials fail, which do not have a sufficiently high heat resistance or are not hard or tough enough to withstand large pressures. the so stressed alloys are very resistant to wear and tear Can be cut and is pressure-resistant.

So-called stellites have been used for the same purposes mainly composed of cobalt, chromium and tungsten or molybdenum are. The properties of the stellite are enhanced by the new melal alloys by far, they also have the advantage that the high-fusible Metals, which are essentially related to their position in the periodic system, in larger quantities are easily available and relatively cheap.

The essence of the invention is that in one by melting manufactured tungsten-molybdenum-carbon alloy with at least 2o% molybdenum, 5 to 76% tungsten and 0.5 to 4% carbon, the tungsten to about 5o% and the molybdenum is replaced to an even greater extent by tantalum in amounts of 10 to about 5o%. the Alloys according to the invention accordingly contain at least 10% molybdenum, 5 to 76% tungsten, tantalum in an amount of 10 to about 50% and 0.5 to 4% carbon, with an increase in the tungsten content, the carbon content also increases. By the tantalum, which is similar to tungsten in its behavior, becomes the strength and in particular the high-temperature strength and hardness of the alloys are increased.

You can also add cobalt, uranium, Chromium, vanadium, titanium, zirconium, silicon in amounts from 0.5 to ao 1j. of the total give, either on their own or in a group.

Depending on the composition of the alloys from the above points of view one obtains structural changes, whereby the alloys depending on the desired requirements are of different types in terms of hardness and wear resistance. The addition of vanadium, Cobalt and also chromium are effective when the amount of carbon is taken into account more in the direction of suppleness.

The alloys are manufactured not through Sinstern, but by melting. The following are some examples of the Composition of the alloys according to the invention are given.

1. 55% Mo, 33% W, 10%, Ta, I to 2% C. 2. 40% Mo, 35% W, 10% Ta, 10%, Co, i to 2% C.

3. 35% Mo, 40 to 50% W, 5 to 10% Ta, 5 to 10% Co, 1.5 to 2% C.

The first alloy is very hard and tough, alloys 2 and 3 are very tough, but a little less hard than the former alloy.

Claims (1)

PATENT CLAIM: Iron-free, molybdenum, tungsten produced by melting and carbon-containing metal alloy, characterized in that they are next to a lower molybdenum content of 10%, 5 to 76% tungsten, tantalum in an amount of 10% to about 5o%, and 0.5 to 4% carbon, with increasing of the Tungsten content also increases the carbon content.