CS200260B1 - Elastic ferritic foil for electrotechnic and electronic devices - Google Patents

Description

The present invention relates to the preparation of a flexible ferrite film for use in electrical or electronic equipment, for example as a flexible ferrite keepr or as a wire memory element, wherein the desired electrical, electronic and magnetic properties are maintained over a wide temperature range of -50 ° C to + 80 ° C.

Prior art foils for similar use, e.g. No. 85,885, where it is used as the base material of rubber or otherwise plastic, such as silicone rubber, epoxy or polyester resins, have a number of drawbacks, are hard, inflexible or poorly resilient; differences, some of which do not have sufficient chemical resistance to Aase, do not retain the initial required electrical, electronic and magnetic properties.

In the case of wire memories, air gaps arise between the keepr and the fasteners, which, due to the high permeability, cause the crosstalk between the digital circuits to increase and the required digital circuit density cannot be achieved. Their further disadvantage is their considerable brittleness, especially at low temperatures.

In contrast, in the case of flexible ferrite foils prepared from ferrite powder and a suitable organo-organic binder of high electrical resistance and at the same time elasticity and heat resistance, it is possible to store the memory elements directly into the fplie. It is also possible to directly connect the circuits by means of wire connections directly to the keeper and thus completely remove or at least

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200 200 minimize unwanted air gaps, the adverse effect of which is mentioned by the eagle.

SUMMARY OF THE INVENTION The present invention relates to a flexible ferrite film for electrical and electronic apparatus consisting of a ferrite powder or ferrite mixture and an organic binder, wherein the organic binder is a plasticized high molecular weight, thermostable, linear, unbranched polyvinyl chloride that does not contain terminal -O- or N-groups. wherein the ratio by weight of the ferrite powder or ferrite mixture and the plasticized high molecular weight, thermostable polyvinyl chloride is 20: 80 to 90: 10, preferably 25:75 to 80:20.

Preferably, polyvinyl chloride is used with a molecular weight above 100,000.

It has been found that, in particular, high molecular weight, thermostable polyvinyl chloride produced according to U.S. Pat. Certificate No. 150 858 or es. Certificate No. 156 723.

The high molecular weight, thermostable polyvinyl chloride may advantageously contain conventional processing aids such as plasticizers, stabilizers, lubricants and others. The amount of these processing additives depends on the desired properties of the material, the process for its preparation and the like.

The plasticizers used are preferably low molecular weight plasticizers, for example dialkyl phthalates or dialkyl sebacates. Particularly preferred is the use of a polymeric plasticizer based on higher polyesters of adipic acid, sebacic acid and the corresponding glycols, especially ethylene glycol or butylene glycol, which is preferably used in an amount of 20 to 50% by weight.

The stabilizers that can and preferably are used are organosilicon compounds, epoxy stabilizers, and the like.

Carnauba wax, higher melting point microcrystalline paraffins, stearic acid and their Cs, Ba, Pb salts are preferably used as lubricants.

It has been shown experimentally that a flexible ferrite keeper made of a foil prepared from a mixture of a ferrite powder or a ferrite mixture and a plasticized high molecular weight, thermostable polyvinyl chloride produced according to the above-mentioned examples. 150 858 and 156 723 does not have the aforementioned drawbacks of similar keepers used to date.

The type of high molecular weight, thermostable polyvinyl chloride used for the preparation of the flexible ferrite film does not change the characteristics of the flexible ferrite keepr prepared from it even in a wide range of temperatures from -50 ° C to +80 ° C. However, the characteristics depend on the quality and amount of the ferrite powder or ferrite mixture used.

Ferrite or ferrite powder mixture can be advantageously used in the particulate matter ranging in size from 10 / and by 100 ^u _{/ U,} where better results can be achieved by those compositions which contain higher content of smaller particles.

Of the many known ferrite mixtures, the mixture of ZnO.FegQ4 in a ratio of 1 to 10 is most preferred

1.5: 2 to 2.5: 4.5 to 6 wt. parts.

In the following, the invention is illustrated by way of example.

Example 1

Ferritic flexible films ae are prepared by first gelatinizing in 60 minutes at 60 ° C on calenders heated to 180 to 200 ° C. of polyvinyl chloride (PVC) powder produced according to CS. No. 156,723, in which 40 wt. parts

200 200 dioctyl sebacate and 0.1 wt. part of the organo-tin stabilizer. Then 400 fhmot are blended into the PVC mass over the next 10 minutes. parts of ferrite powder having a grain size of 30 µm and an InO composition. 2n0. PegO 2 in a ratio of 1: 2: 4.5.

A film of 0.45 thickness is prepared from the ferrite mass. 0.9 and 1.35 mm.

Example 2

The procedure as in Example 1.8, except that dibutyl phthalate is added as plasticizer.

Example 3

The procedure as in Example 1, except that the PVC powder produced according to U.S. Pat. No. 150,858, and as plasticizer of the polymeric plasticizer of dioctyl adipate. _t

Example 4

The procedure as in Example 1, except that sebacic acid dibutyl ester was used as the polymeric plasticizer.

Examples 5 to 6

Procedure as in Example 1, except that the ratio of organic binder to ferrite powder was varied as shown in the table:

Example Softened PVC ferrite powder total ratio 5 100 ALIGN! 900 1 000 10: 90 6 100 ALIGN! 350 400 25: 75 7 100 ALIGN! 100 ALIGN! 200 50: 50 8 100 ALIGN! 25 125 80: 20

Example 9

The procedure as in Example 1, except that the composition of ferrite powder. 2n0. The FegOj is in a ratio of 1.2 with 2.2 and 5.

Example 10

Procedure as in Examples 1 and 4, except that the composition of MnO ferrite powder. ZnO.

• ^Fe 2 ° 3 ^{in diameter} 1 »5 i 2,5 i 6.

The flexible ferrite foil prepared according to Examples 1 to 10 was further tested for mechanical properties, namely hardness, flexural strength and magnetic properties, namely flexible ferrite foils with ferrite dust concentrations of 20 to 9% (20: 80 to 90: 10).

Up to 70% of ferrite dust, flexible ferrite foils retain high elasticity, the snake decreases by this concentration, the snake 85% are already very brittle foils.

For ferrite keepr, a flexible ferrite film of 80% ferrite dust and 20% softened high molecular weight polyvinyl chloride is best suited. This composition compromises the requirement of high magnetic dust loading and high flexibility.

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The increase in response is also a function of the layer thickness as shown in the table below the thickness of the keeper (mm) 0.45 0.9 1.35

Keepr enclosed on one side 10% 30% 40%

Keepr enclosed both sides 60% 100% 110%

The effect of the keeper reduces mutual interference when writing to adjacent memory locations.

The flexible ferrite keepr applied to the coil winding of the plane allows for increased bit density and reduced plane control currents. This bending is due to a reduction in the demagnetic effect of the memory locations on the wires magnetized for reading and writing in a short time.

BEFORE THE INVENTION

Claims (3)

BEFORE THE INVENTION Flexible ferrite foil for electrical and electronic apparatus, consisting of a ferrite powder or ferrite mixture and an organic binder, characterized in that the organic binder consists of a softened, high molecular weight, thermoatable, linear, non-branched polyvinyl chloride which does not contain end -O- N-groups, wherein the ratio of the mass of the group to the parts of ferrite powder or ferrite mixture and plasticized high molecular weight, thermostable polyvinyl chloride are 20: 80 to 90 s 10, and preferably 25 s 75 to 80 s 20. 2. Flexible ferrite foil according to claim 1, characterized in that the high molecular weight thermoatable polyvinyl chloride contains processing additives such as plasticizers, stabilizers and lubricants. Flexible ferrite foil according to Claims 1 and 2, characterized in that the high molecular weight thermostable polyvinyl chloride comprises a polymeric plasticizer based on higher polyesters of adipic acid, sebacic acid and the corresponding glycols, preferably ethylene glycol or butylene glycol. Printed by Moravian Printing Works, plant 12, Leninova 15, Olomouc Price: 2.40 K 6 s