DEK0004607MA - Iron alloy for magnetogram carriers - Google Patents

Description

Fried.Krupp in Sssen Stahlwerk Ergste Aktiengesellschaft in Ergste

Manufacturing from Magnetogram carriers (e.g. steel clay wires

and steel tape recorders).

Such permanent magnet materials are used for magnetogram carriers (e.g. steel clay wires and steel tapes) in which the Coercivity (H ₀ ) is not too high so one Magnetism reversal of the elementary areas through the magnetic field still is possible; man has so far for this one purpose low-alloy cobalt magnet steels and Iron-nickel-copper -Leg ations with about 20 % Nickel and 6th % Copper oe applies. the Cobalt- Magnetic steels but have the disadvantage that they _t according to of their huge mechanical Just hardship difficult let work on thin dimensions; in the iron, nickel-copper alloys will only achieved strengths of around 100 kg / mm » which means at assuming a certain Resilience the Cross-sectional dimension according to limited below will. The invention aims once for Magnetogram carrier best alloys to announce, which is characterized by an easy deformability in thinnest Dimensions stand out and still a very high strength exhibit. This has the consequence that in the magnetogram carriers produced according to the present invention, under otherwise identical conditions, the wire or Band cross-section significant can be kept lower than when using mm iron-Nic iel-copper alloys, so that the in the same room spoolable wire or Tape length considerable greater being can. the invention also aims Manufacture magnetogram carriers from such alloys that significant lower contents of expensive and heavily deuisen-contaminated Elements than the previous ones for this one Purpose proposed Alloys. the specified Purposes will the invention achieved in that for the production from Magnetog ram girders all across partial austenitic iron -Chrome -Nic kel or. Iron-chromium -Mnng on -Leg used will the partly martensi by cold forming iisch been made are. It would namely Surprisingly found that austenitic materials based on egg

sen-chromium-N ic hot or iron-chromium-manganese by suitable Potash Formation Properties obtained by these alloys for the production from Make magnetogram carriers (e.g. steel wire or steel tape) appear extremely suitable. Have particularly proven themselves for this purpose such alloys With about 10-25 % Chromium and 5-15 % Nickel or with 10 - 25th % Chromium and 8-18 ρ Manganese that is at least around 60% preferably but over 80% of their cross-section cold Are deformed. at these alloys be able Nickel and manganese replace each other in whole or in part. The specified cold forming makes it possible to create a magnetic cheap Kr is al! 'Alignment too receive and on this Seise to increase the remanence. I especially like the achievement of Don good magnetic Values has been found to be beneficial an additive from some nitrogen proved. For example, an alloy resulted With 15th % Chromium, 1 , 5 % Nickel, 13% manganese and 0 , 13 % Nitrogen after one Cold forming mn 94 % a remanence υοη 2600 GauB at a coercive force from 160 Oersted. Through Tempering on about IOO ⁰ - 500 ° a further increase, in particular the remanence, can be achieved with the specified alloys; in which mentioned alloy example increases E.g. the remanence due to a tempering treatment at 200 ° C 3300 Gauss.

Claims (1)

(Sem) claims 1. The value consignment of yarn or part ice austentttsohm Et * » sen ^ GhroiiHf Iokel ^ Mw _e Iron ^ Ohnm ^ Manganese ^ legienmgm ^ the durah Kalimrfommg a partially martensl t tsohes SeffIge received Uaiien _i as Iferksteff for mognetogram carriers in the form of wires or Sanaem _s 2, Bie VerstendmQ won completely or partially ouetenltU see SP-setährosHMUtKel-Legtermgen with 10 25% Chmm ₀ 5 - J5% MUkei and up to 0.3% KsMenstoff after the treatment according to claim 1 for Aen Zweoik according to ämpruok 1. 3 * Me use M whole or tetltsstse austenltUöhen Ei ** aen ^ rom ^ mgoa ^ alloys with 10 - 25% chromium ₉ 8 - 18% manganese and up to Q, 3% carbon after the treatment according to claim J for the ■ Eweok naoh Ampmah J * 4. Bte FerweMsmg wm Zeglerwtgen, 'Me they are mentioned in Claim 2,% ei which measures the distribution of the whole or toilmtse amteniiisahen OefUgesdas Mlokel ■ Jedoeh duroh Manganese is partially replaced in such a way that bet almost ^ oUetandtgm Substitute almost 8 - 18% manganese available Are ₀ after the treatment according to Claim 1 for the Eweek naek AmpmQh 1, 5 « Bte use of Mgtermgen _s as they are mentioned in claims I ₉ 2, 3 or 4 are ₀ Me but noeh up to 0.2. % nitrogen deprived, for the Emeok müh Amprmh J. C The term ending mn Legiemngm as they are mentioned in claims 1 Ms 5, with Menem the Ealimrfoimng mer 60%, preferably over 80%, for the Eweek nojgh Anspruoni _i 7. pie Tero ending of alloys, as they are mentioned in speeches 1 to 6 * which Jedoeh noeh undergo an occasion treatment Usbm ₀ for the two-part nmh claim 1 «