DE626777C - Chrome steel for permanent magnets - Google Patents

Description

GERMAN EMPIRE

ISSUED AKI MARCH 2, 1936

REICH PATENT OFFICE

PATENT LETTERING

CLASS 18 d GROUP 2 ίο

Deutsche Edelstahlwerke Akt.-Ges. in Krefeld *) Chrome steel for permanent magnets

Patented in the German Empire on March 9, 1929

For permanent magnets, where good remanence and coercive force are important, chromium magnetic steel and tungsten magnetic steel have mainly been used. For some years now, cobalt magnetic steel, which has a cobalt content of 5 to 35% Co, has also been used for more highly stressed permanent magnets. For many areas of application, the search is on for magnetic steels that are not much more expensive than tungsten magnetic steels, but surpass them in terms of remanence and coercive force. Such steels are addressed in the present invention. It is proposed to use complex steel alloys, in addition to 0.75 to i, o8 ° / o carbon and 0.25 to o, 95 ° / ₀ manganese substantially from 2.02 to 4.9% of chromium as the base alloy metal next still Contain 0.5 to 2% tungsten or 0.5 to 1.5% molybdenum or whichever is in addition to the aforementioned

ao percentages of carbon, manganese and chromium still total at least 0.6 to a maximum of 2% Contains molybdenum plus tungsten. The present invention is based on the discovery that the coercive force of the permanent magnets is significantly increased when the to use coming steel alloy next to 0.75% to 1.08% carbon content and next to the corresponding Chromium content still at least molybdenum or tungsten or else molybdenum plus tungsten in the specified percentages.

By changing the proportions between chromium and molybdenum or between chromium and tungsten, if the carbon content is 0.75 to 1.08%, permanent magnets can be produced either with high remanence and at the same time with sufficient coercive force or with special high coercive force in addition to sufficient remanence. In this way, permanent magnets can be produced which have a coercive force of up to 80 Gauss with a remanence of less than 10,000 Gauss or which have a coercive force of up to 70 Gauss with a remanence of up to 11,000 Gauss. The best magnetic properties are achieved when using a steel alloy for the production of permanent magnets, which in addition to 0.85 to i, o ° / ₀ carbon has a chromium content from 2.8 to 4.5%, and additionally have a molybdenum content of 0.6 contains up to 0.8%.

In order to reduce the production costs, a steel alloy can also be used for the production of permanent magnets, in which the above-mentioned molybdenum content is partially replaced by tungsten. For example, about 3 ° o chromium /, 0.4% molybdenum and 0.5% tungsten 'versus those of 6 ° / ₀ sodium tungsten magnetic steel in the manufacturing prices are considerably cheaper. In terms of their magnetic values, such permanent magnets are at least equivalent to those made from the best tungsten steel. The permanent magnets can also be made of steel alloys, which in addition to 2.02

*) The patent seeker stated as the inventor:

Carl Sattler in Dortmund.

to 4.9% »chromium molybdenum plus tungsten-Provide together at least o, 6 ° / ₀ and not more than 2%; -in this case may the percentage of molybdenum and tungsten for each of these two metals as required even less than o.5 ° / ₀ , i.e. z. B. 0.3% Mo plus 0.3% W or 0.4% Mo plus 0.3% W or o, 6% Mo plus o, 2 ° / ₀ W or 0.4% Mo plus 0.6% W etc. You can also use a steel alloy which, in addition to the aforementioned substances, also contains cobalt up to 1% in the specified percentages. In this case, in addition to the corresponding chromium content, the other alloy metals mentioned must also be present in the following amounts in the steel alloy used: Either molybdenum plus cobalt in the amount of at least 0.6 _% to a maximum of 2% or tungsten plus cobalt in Amount of at least 0.6% to a maximum of 3 ° / ₀ or molybdenum plus tungsten plus cobalt in the amount of at _{least 0.6% to a maximum of 3 ° / 0} . The purely alloying composition of the substance does not belong to the present invention, but only the use of the substance due to its good magnetic properties (remanence and coercive force). ■

Claims (6)

Patent claims: <■ i. The use of a chromium steel alloy with a chromium content below 5% in the composition: 0.75 to 1.08 ° / ₀ C, 2.02 to 4.90% Cr, 0.25 to 0.95% Mn, 0.50 to 1.50% Mo, remainder iron with the usual contents of Si, P, S for the production of objects that require good remanence and coercive force.
2. The use of a chromium steel alloy with a chromium content below 5% in the composition: 0.75 to 1.08% C, 2.02 to 4.90% Cr, 0.25 to 0.95% Mn, 0.50 up to 2.00% W, remainder iron with the usual contents of Si, P, S for the purpose according to claim 1. 3. © ie Use of a chromium steel alloy mif a chromium content below 5 ° / ₀ in the composition: 0.75 to i, O87 ₀ C, 2.02 to 4.90% Cr, 0.25 to 0.95% Mn, less than 1.5% Mo, less than 2.0% W, where Mo + W is 0.6 to 2%, the remainder being iron with the usual contents of Si, P, S for the purpose according to claim 1. 4. The use of a chromium steel alloy with a chromium content below 5% in the composition: 0.75 to 1.08% C, 2.02 to 4.90% Cr, 0.25 to 0.95% Mn, less than 1, 5% Mo, less than X ⁰ J ₀ Co, where Mo + Co is 0.6 to 2%, the remainder being iron with the usual contents of Si, P, S for the purpose according to claim 1. · 5. The use of a chromium steel alloy with a chromium content below 5% in the composition: 0.75 to 1.08% C, 2.02 to 4.90% Cr, 0.25 to 0.95% Mn, less than 1.5% W, less than 1% Co, where W + Co is 0.6 to 3%, the remainder being iron the usual contents of Si, P, S for the purpose according to claim 1. 6. The use of a chromium steel alloy with a chromium content of less than 5% in the composition 0.75 to 1.08% C, 2.02 to 4,9O ° / ₀ Cr, 0.25 to 0.95% Mn, less than 1.5% Mo, less than 2% W, less than 1% Co, where Mo + W + Co is 0.6 to 3%, the remainder being iron with the usual contents of Si, P, S for the purpose according to claim 1 . Berlin. 'PRINTED IN THE REICH PRINTING BOX