DE3937031C1 - Conversion of work material to martensitic chromium steel - for prepn. of sharp knives - Google Patents

Abstract

Martensitic Cr steel contg. (wt. %) 0.7-0.9C, less than 1 Si, less than 1 Mn, 0.5-1.5 Mo, 0.7-0.95 V, 0.3-0.9 Nb, 12.1-13.9 gcr, remainder Fe is used for cutting knives for cutting meat. A partic. advantageous steel contains 0.80C, 0.50 Si, 0.45 Mn, 13.0 Cr, 1-3 Mo, 0.90V, and 0.70 Nb. Corrosion resistance is improved by rotatably high Mo content and grain-refining effect of Nb, while Nb carbides and secondary carbides give near resistance. ADVANTAGE - Optimum properties at formable cost.

Description

The invention relates to the use of a high-strength, tough, corrosion-resistant steel for the production of Cutter knives.

Cutters are used to cut meat. A steel suitable for cutter knives must be a whole possess a certain range of properties. This includes

• - good corrosion resistance compared to cutting tissue fluid escaping from meat (saline solution),
• - high hardness to ensure cutting edge stability,
• - high strength to the high Rotational speeds occurring around 4000 rpm To withstand centrifugal forces,
• - good wear resistance to longer time intervals without Survive resharpening,
• - Sufficient toughness to handle even harder, e.g. B. to be able to cut frozen pieces
• - good polishability to give a good visual impression to convey at
• - As inexpensive to manufacture.

It has been known for a long time, namely for over 50 years, for knives with martensitic rust-resistant chrome steels 0.2 to 2.5% C, 8 to 22% Cr and usual contents Manganese, silicon, phosphorus, sulfur and nitrogen, as well as 0.2 to 6% molybdenum and / or tungsten (DE-PS 1 59 794). An example is a steel with around 1% C, 0.5% Mn, 0.24% Si, 13% Cr, 1% Mo and 0.14% N. Similar composite steels for cutting tools are made of  DE-AS 17 52 655 with additional contents on the Carbide formers vanadium, titanium, tantalum, niobium and zircon, in a total of up to 2% is known. As an example, a Steel with 0.6% C, 1% Si, 0.36% Mn, 10.5% Cr and 1.0% Mo called. This known steel contains at least 20% Residual austenite.

For the special use for cutter knives the DE-OS 33 39 904 a three-layer steel, either one hard middle layer between two tough layers or one tough middle class lies between two hard layers, which are connected to each other by compound rollers. Are used for the individual layers relatively high chromium steels with 14 or 18% Cr. The tough layer has a relative low carbon content by 0.1%. The carbon content the hard layer is around 1%. In addition to usual They can contain less than 1% of silicon and manganese Steels 1 to 2% molybdenum and 1 to 2% vanadium contain.

The invention is based on the object of a steel to propose for cutter knives, which regarding the above-mentioned property spectrum optimal values possesses favorable production price.

To solve this problem, the invention proposed using a martensitic steel

0.7 to 0.9% C,
less than 1% Si,
less than 1% Mn,
0.5 to 1.5% Mo,
0.7 to 0.95% V,
0.3 to 0.9% Nb,
12.1 to 13.9% Cr,

Remainder of Fe including melting related impurities to use cutter knives.  

A steel from this range with an average of 0.80% C, 0.50% Si, 0.45% Mn, 13.0% Cr, 1.3% Mo, 0.90% V and 0.70% Nb has proven particularly useful for cutter knives. The The reason for this is the fact that the invention steel to be used compared to the previously used Steel, material number 1.4153, due to its higher Molybdenum content and the grain-refining effect of Niobium has excellent corrosion resistance. Furthermore, the primary excreted in fine form Niobium carbides together with those excreted during tempering Secondary carbides have a high wear resistance.

The steel is usually manufactured on metallurgical path. The warm and then cold rolled strips are processed into cutter knives. The knives are then at 1050 after austenitizing up to 1100 ° C to produce the martensitic Process of transformation accelerated by hardening temperature quenched and then more optimal to achieve Hardness, toughness and corrosion resistance Tempered temperatures from 460 to 560 ° C.

The following properties can then be reached.

With almost the same hardness, the steel to be used according to the invention achieves a 15 to 25% higher toughness due to its finer and more uniform carbide formation, see FIG. Fig. 1. In fatigue tests, a 50% higher fatigue strength was found, whereby the service life of highly stressed cutter knives can be significantly increased. The salt spray test showed that the steel to be used according to the invention had a considerably lower corrosion attack than the comparative steel, material number 1.4153.

Claims (2)

1. Use of a martensitic chrome steel consisting of (in% by weight) 0.7 to 0.9% C,
less than 1% Si,
less than 1% Mn,
0.5 to 1.5% Mo,
0.7 to 0.95% V,
0.3 to 0.9% Nb,
12.1 to 13.9% Cr, remainder Fe including melting-related impurities as a material for the production of cutter knives. 2. Use of a steel according to claim 1 with 0.80% C, 0.50% Si, 0.45% Mn, 13.0% Cr, 1.3% Mo, 0.90% V and 0.70% Nb, balance Fe for the purpose according to claim 1.