DE738661C - Steel alloy for tools with high wear resistance - Google Patents

Description

Steel alloy for tools with high wear resistance. The invention relates to a steel alloy for preferably water-hardenable, also for intermittent Stress, suitable tools with high wear resistance.

For such tools, especially corrugated knives, pull knives or pull rings, steel alloys are used, which give the tool a Give RC hardness of at least 67, but expediently from 68 to 69, with this RC hardness, however, even after tempering, despite heating to around 2oo ° substantially, at least not below 66. The steel alloy suitable for this but cannot be selected solely according to the degree of hardness that can be achieved. There the tools in question are also used for very hard materials and predominantly machanikh, claimed to graze, -must be in a small structure. next to one have very hard carbides embedded in it. One therefore chooses As is well known, a high-carbon steel is used as the basis and alloyed with the carbide formers Chromium, vanadium and tungsten, with tungsten accounting for the majority, so that the known alloys usually have a content of over i% C, up to 1.5% Cr, up to o, 5% V and q. contain up to 8% W. The tungsten content can also be up to 2% sink down. The high tungsten content makes the tool more brittle.

According to the invention, by changing the known proportion of the carbide former the wolf ripe content has been reduced below the minimum limit known up to now. According to the invention steel alloys should be used which, in addition to iron and the usual impurities still contain the following components: i, o to 2.0% carbon, o, 8 - 2, 5% vanadium.

.o, 5 to less than 2% Wolfrafn.

The steels can also contain up to less than 1% Chr & n-.

The alloy to be used according to the invention is outstanding favorable properties, especially when the proportions of carbide formers lie within relatively narrow limits. The alloy is then special suitable if you besides iron and the usual impurities 1.3 to i, 8% carbon, o, i - o, 6% chromium, 1.0 - i, 75% vanadium, i, m to under Contains 2% tungsten.

The best results were shown in tests with a steel below Composition: i, 6% carbon, 0.3% chromium, 1. ¢% vanadium, i, 6% tungsten, remainder Ice and common impurities. This steel leaves after water hardening at 780 up to 840y C a C hardness of 69 to 7e can be achieved. At! _Niassen at ioo "C there is practically no change in hardness at all. Even tempering at 200 ° C does not let the RC taps drop below 66. Cutting attempts z <i; n, since 2- of the invention to use & steel the well-known corrugated steel with a content of 80'o tungsten not only always; literally ready, but also superior in many cases.

A greater advantage of the alloy used according to the invention compared to the well-known corrugated steels with high wolf is its higher toughness. Therefore, its use is not only for serrated knives, pull knives or pull rings, but generally valuable for all tools that are subject to high wear and tear and a are exposed to shock loads.

Claims (3)

PATENT CLAIMS: i. The use of a steel alloy with. i, o to 2.0% carbon, 0.8 - 2.5% vanadium, 0.5 to less than 2010 tungsten, the remainder iron and impurities as a material for tools that are preferably water-hardenable and also suitable for shock loads with high wear resistance. 2. The use of a steel alloy mentioned in claim z, which, however, smelled contains up to less than 1.5% chromium, for the purpose according to claim i. 3. The use of a Steel alloy mentioned in claim 2 with i "; up to 1.8 0, 'o carbon, 0.1 o, 6 % Chromium, 1.0 - #_, 75% vanadium, i, @ a to below 20! O tungsten, the remainder iron and impurities for the purpose according to claim i.