DE308291C - - Google Patents

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M 3Q8291 CLASS 18 c. GROUP

STAHLWERKE RICH: LINDENBERG AKT-GES. in REMSCHEID-HASTEN.

Through the work of Mars "Steel and Iron" 1909, pages 1673 and 1769, is known become / that instead of tungsten steel, it is also advantageous to produce chrome steel can use permanent magnets. It has also become known through this work, that the best magnets can be made from such steels, alongside others Properties have the finest structure.

A structure that is as fine as possible is created by hardening the steel from one of its holding points exceeding temperature achieved, whereupon in the aforementioned work »page It was particularly pointed out in 1774 that it should be avoided to leave the steel at this temperature for a long time to leave.

It has also been known that chromium steel with 3 to 6 percent chromium content is the That has a peculiarity when it comes to warming

ao or cooling the hold ^{point Ac 1} or Ar ^{1 is} at a higher temperature than A c ² or A r ² ·.

The interval was found to be around 44 ⁰ .

It is finally known that magnetized,

Ordinary steel, when heated up to the point Ac ¹ , loses the magnetism previously given to it, and that in the case of chromium steel magnets this already occurs at a temperature corresponding to the point Ac ^{% , ie 44 °} below Ac ¹ .

Experience in practice has now taught us that chrome steel that has only been heated above its breakpoint for a short time. if he being cooled in water resulted in too high a hardness board to make it economical to be able to use. Milder; s hardened,

d. H. ζ. B. cooled in oil, it shows this brittleness causing the hardness committee ■ no longer, but this results in a considerable reduction in its magnetizability brought about.

It is known that a reduction in brittleness and thus the hardness committee can as with all other high carbon steels, also brought about by it be that the chromium magnet steel is sufficiently long before cooling in water glows over its breakpoint. As * already mentioned above, this makes its later magnetizability is severely impaired. -

Because of the lack of tungsten, the need has arisen to use chromium in its place. -. ,

Try to reduce the hardness brittleness and thus the hardness waste and at the same time the highest magnetizability '. obtain, d. H. to maintain the water hardening have resulted in the following procedure to use for the hardening of chrome steel magnets:

The pieces made of chrome steel intended for magnets are cut to between 60 and io ° below the precisely determined beforehand The temperature at the stopping point is heated and annealed at it. ,

Then the chrome steel is either in a second stove or, after having caught a cold, on one as quickly as possible Breakpoint temperature exceeded and quenched in water of 15 °.

With the / 4: i ^ es procedure the hardness exhaustion is reduced by> \ μηί a third of the previous one, but at the same time the highest magnetizability is not reduced. ·. ■

Claims (1)

/ Patent claim:, / Method of hardening chromium steel pieces intended to be magnets; characterized in that the finished steel pieces intended for magnets are added ίο next brought to a temperature below its breakpoint, and after that Heated as quickly as possible to the most suitable hardening temperature above this holding point and immersed in water be deterred.