DE2355051A1 - Soft magnetic ferrite parts having non-magnetic cavities - filled with permanently magnetic ferrite, and produced by press moulding - Google Patents

Abstract

Shaped parts of soft magnetic ferrites (I) contain non-magnetic cavities filled with permanently magnetic ferrites (II). (I) and (II) are firmly bonded to each other. Pref. (I) consists of Mn-Zn or Ni-Zn ferrite and (II) of Ba or Sr ferrite. The part can be parallelepiped with (alternating) layers of (I) and (II) or it can be E- or U-shaped. The part is made by pressing in a mould in an automatic press, each layer of (I) or (II) powder being pressed before adding the next, then sintering and finishing with parting and/or grinding tools. (I) can be free-running and granular and (II) not free-running and in the form of a fine powder. Prods. are used in the electrical and electronics inds., e.g. for recording, play-back and erasing heads for sound recording systems. The filled cavities act as air gaps but give a prod. which is more durable and also cheaper than those normally used.

Description

FRIEDo KRUPP GESELLSCHAFT with limited liability in Essen

Body made of soft magnetic ferrite and process for making the body

The invention relates to differently shaped and composed of magnetically soft ferrite s Bodies that have non-magnetic interstices and a method for producing such Body.

It is known that sintered bodies can be produced from magnetically soft ferrites, such as, for example, manganese-zinc-ferrite or nickel-zinc-ferrite, which are provided with air-filled cavities of different shapes, the so-called air gaps. The air gap has the function of absorbing shear or a magnetic circuit respectively to produce a leakage magnetic field _o. The ventilation gaps are ground into the sintered, magnetically soft ferrite bodies. Instead of air, another non-magnetic material, ZkB. a plastic film may be provided. If a non-magnetic plastic film is placed between two parts made of magnetically soft ferrite, this body has the property of a magnetic circuit with an air gap. U-shaped bodies are also made from magnetically soft ferrites and provided with foils. The so

- 1 -

5098 19/0 934

Soft magnetic bodies with an air gap - or rather a non-magnetic interspace - are used as components in the electrical and electronics industry worked out from larger soft magnetic ferrite bodies by means of grinding and cutting tools and then assembled so that the non-magnetic gaps required for the functionality of the sound heads are formed by cavities ground into the components or by non-magnetic foils placed between the components. But edges, corners and tips of small components breaking during manufacture and assembly very easily _o This size and shape to change the non-magnetic gaps undesirably TiTeise, which the heads are often unusable.

The object of the invention is to provide soft magnetic ferrite different geometric shape that are more durable, can be formed as those commonly used in the magnetic tape art soft magnetic components and their non-magnetic intermediate spaces during the production of the ferrite _o

The object underlying the invention is achieved in that the rooms with permanent magnetic Ferrites are filled. Duration-

609819/0934

Magnetic ferrites have a magnetic one Permeability of approximately 1 and therefore act compared to soft magnetic ferrites, the magnetic permeability of which is greater than 100, than non-magnetic materials. You can therefore air and plastic films with which the spaces acting as an air gap are soft magnetic ferrite bodies are usually filled, replace. In addition, the bodies are such that the soft and permanent magnetic ferrites are firmly connected to each other. According to the Invention-created bodies have a particularly high strength if they are made of magnetically soft manganese-zinc or nickel-zinc ferrite and consist of permanent magnetic barium or strontium j? erite * special have advantageous properties according to Invention built body that took shape of a cuboid and made of soft and permanent magnetic ferrite layers

The cuboid body is normally constructed in such a way that each permanent magnetic ferrite layer is surrounded by two soft magnetic ferrite layers. The layers consisting of permanent magnetic ferrites act like an air gap. In other cases it will be convenient if the parallelepiped body is constructed so that each soft magnetic ferrite layer istq surrounded by two permanent magnetic ferrite layers, it corresponds to the invention that the parallelepiped body, consist of more than three ferrite layers köniien _o For many applications, it is advantageous when magnetically soft ferrite bodies have an E or U shape.

5 0.9 81 97QB 3 4

The differently shaped and made of soft magnetic Ferrites existing bodies, which have spaces filled with permanent magnetic ferrites, are according to the invention produced by a process in which the following process steps take place one after the other eni

a) Input of a soft or permanent magnetic ferrite powder into the shaping die of a metal powder press machine

b) Pressing the contents of the die by means of and lower stamp j

c) Lifting off the Oberstempeis and giving up a permanent or soft magnetic ferrite powder on the matrix content}

d) pressing the contents of the die by means of the upper and lower punches j

e) Taking off the top temp and giving up a soft or permanent magnetic ferrite powder on the matrix contents j

f) Pressing the contents of the die by means of and lower stamp;

g) ejecting the compact from the automatic press;

h) sintering of the compact j

i) Reworking the sintered body with cutting and / or grinding tools »

509819/0 9:34

The process stages a) to f) can be re-oiled depending on the layer structure of the compact. The bodies produced by the process tear at the _; Layer boundaries are not, since the ferrites used show almost the same shrinkage behavior during the sintering process and have almost the same thermal expansion coefficients.

A homogeneous crystal structure is formed at the layer boundaries, which gives the bodies produced according to the invention extensive mechanical stability. The manufacturing process can be carried out particularly advantageously when the magnetically soft ferrite powders are free-flowing and when the permanent-magnet ferrite powders are not free-flowing and have the grain structure of a finely ground powder. _:

The with the invention compared to the prior Technology achieved advantages are in particular that the components that still are made by cutting and / or grinding from the bodies produced according to the invention, are more durable and cheaper, than the components used today,

Sin embodiment of one according to the Invention produced body is shown in the drawing and is in the following is explained in more detail:

- ■■ ". -5: -

509 8 19/0 93A

The body has the shape of a cuboid and comprises two soft magnetic Ferritschichtert 1 and 3> between which the permanent-magnetic ferrite layer 2 is acting as an air gap and fixedly connected with the soft magnetic ferrite layers is _o For the preparation of the body, for example, manganese-zinc or Nickel-zinc ferrite is used as a soft magnetic material and barium or strontium ferrite is used as a permanent magnetic material, with the soft magnetic ferrites in granulated, free-flowing form and the permanent magnetic ferrites in fine powder form in the automatic metal powder press. The amounts of ferrite to be metered into the automatic presses are controlled as a function of weight or volume. The body is shaped in three separate pressing processes, each of which is preceded by the dosage of the soft or permanent magnetic ferrites. The pressed part is sintered, whereby the body receives its final dimensions and strength properties. A cuboid body according to the invention, for example, had the following dimensions;

Length) 100.0 only.

. ,) of the cuboid ... _n " Br ex te (, ... 100.0 mm

) Body

Wool ) 10.1 well

Height of the soft magnetic

P ight 510 mm

Height of permanent magnet! See

Layer 0.1 mm

509819/0934

Claims (1)

Claims / Ϊ) Differently shaped and made of soft magnetic ferrite bodies which have non-magnetic intermediate spaces, characterized in that the spaces are filled with hard magnetic ferrites. Body according to claim 1, characterized in that that the soft and permanent magnetic ferrites are firmly connected to each other are. Body according to claims 1 and 2, thereby characterized in that they are made of magnetically soft manganese-zinc or nickel-zinc ferrite and consist of permanent magnetic barium or strontium ferrite. Body according to claims 1 to 3 »thereby characterized in that they have the shape of a square and consist of soft (1, 3) and permanent magnetic (2) ferrite layers. 5. Body according to claim 4, characterized in that that each permanent magnetic ferrite layer (2) is surrounded by two soft magnetic ferrite layers (1,3) isto - 6. Body according to claim 4, characterized in that each soft magnetic ferrite layer is surrounded by two permanent magnetic ferrite layers. 7. Body according to claims 1 to 3, characterized characterized in that they have an E or U shape. 509819/0934 Process for producing the body according to Claims 1 to 7, characterized in that that the following process steps take place one after the other; a) Input of a soft or permanent magnetic ferrite powder into the shaping die of a metal powder press machine b) pressing the contents of the die by means of the upper and lower punches j c) Lifting the upper punch and giving up one permanent or soft magnetic ferrite powder on the matrix content d) Pressing the contents of the die by means of and lower stamp; e) Lifting the upper punch and applying a soft or permanent magnetic ferrite powder on the matrix content; f) pressing the contents of the die by means of the upper and lower punches; g) ejection of the compact from the automatic press} h) sintering of the compact; i) Reworking the sintered body with cutting and / or grinding tools » 9. The method according to claim 8, characterized in that the process steps Jt) to f) are repeated depending on the desired layer structure of the compact. - 8 509819/0934 ΙΟ «, method according to claim 8 or 9? through this characterized that the soft magiletic Ferrite powders are free-flowing and have the grain structure of granules and that the permanent magnetic ferrite powder are not free-flowing and the grain structure of a finely ground powder. 5098 1 3 / Q934 Blank page