DE1287132B - Magnetic storage medium - Google Patents

Description

The invention relates to magnetic storage media with improved magnetic and mechanical properties.

Magnetic storage media are used for a variety of applications provided, from sound and television recording to storage and playback of data for machines, such as in distance measurement and in calculating machines. The requirements for an ideal storage medium are very numerous and the experts well known.

The most widespread storage means today are made of tapes a flexible, non-magnetic base with a thin layer of ferromagnetic Powder, which with a suitable binder or. is upset.

Wires made of alloys with permanent magnetic properties preferably used and found in the past as a storage means still used when long recording pages with little space requirement are desirable such as speech recording devices. In fact, wire has the slightest Volume per unit of recording time.

Wires made entirely from ferromagnetic alloy and which are approximately 0.1 mm (0.004 inches) in diameter, this being is the common dimension for pick-up wires for a number of reasons Very high frequency signals cannot be reproduced satisfactorily. One reason for that is that for this purpose a layer thickness of the ferromagnetic material of less than 0.0001 inches as found on magnetic tapes. Accordingly are Also wires have been used that have a non-ferromagnetic core and a have outer, plated-on ferromagnetic layer.

Wires are generally more difficult to handle than ribbon, especially regarding the even winding and the possibility of breaks.

One of the disadvantages of tapes is their relatively low power output. The power output is basically proportional to the remanence of the magnetic Layer, d. H. the level of magnetic induction remaining in the layer after the layer has been subjected to a saturation magnetic field and this Field was reduced to zero. The remanence of the bands is low because of iron oxide powder with low remanence to be used for practical reasons and continue to be because the ferromagnetic layer contains a significant percentage of binder. Attempts to reduce the binder content below this considerable percentage, lead to mechanical instability of the layer, d. H. the powder is either during handling or while saving.

All magnetic storage media can be made from microscopic or submicroscopic elements are thought to be composed, each of which is used for Saving a signal contributes. Both for tapes and wires, such as they have been created so far, are the magnetic properties of the individual elements neither evenly nor can they be easily influenced during production. As a result of this random non-uniformity, the known storage means exhibit has a number of disadvantages such as: unwanted noise, necessity a superimposition of a high frequency preload on the signal and also possible Loss of signal - a very serious disadvantage with tapes used for instrumentation purposes be used.

Although there have been significant improvements in the manufacture of ribbons could be achieved, so that today the tapes of the best quality for sound reproduction are satisfactory, there would still be improved output and reduction the noise is generally very desirable, but especially for measuring instrument purposes, where uniform magnetic properties are necessary to achieve an appropriate To achieve reliability.

For this purpose, it is proposed, starting from a magnetic storage medium, which consists of a large number of longitudinally aligned magnetic elements, according to the invention to form these elements from ferromagnetic single-area fibers, which are aligned side by side in the longitudinal direction of the storage means, wherein each fiber encased in a metal or metal alloy cladding whose material is different from that of the fibers, furthermore these Coverings to form a uniform structure of the storage means with one another are connected.

A magnetic storage medium according to the present invention is illustrated in the accompanying drawings and described below: F. i g. Fig. 1 shows a cross section through a magnetic tape according to the invention; F i g. Figure 2 is a cross-section through a varied magnetic tape; F i g. 3 there a cross section through a magnetic wire again.

The F i g. Fig. 1 shows a magnetic tape 5 which is made up of a plurality consists of single-domain ferromagnetic fibers, each of which is encased is included, which consists of a metal or a metal alloy, the differs in their material from that of the single-domain fibers. To at all to be able to graphically represent the arrangement of the individual area fibers, these are reproduced on an extremely enlarged scale. In practice these are since these are single-range fibers, of course extremely small. Of the Diameter of a single domain fiber made of iron is z. B. less than a micron be.

F i g. 2 shows a magnetic tape which consists of a layer 7 ferromagnetic single-area fibers and on a flexible carrier tape 8 are upset. The fastener tape 8 can be made of a flexible non-ferromagnetic Metal or e.g. B. also consist of a plastic plastic.

The embodiment according to FIG. 3 shows a magnetic wire with a core 9 made of non-ferromagnetic material, which is all around with a cover layer 10 is provided, which is made of ferromagnetic single-domain fibers applied to the core consists.

Claims (5)

Claims: 1. Magnetic storage medium consisting of a large number of consists of longitudinally aligned magnetic elements, d a d u r c h g e - indicates that these elements are made of ferromagnetic single-domain fibers exist that side by side in the longitudinal direction of the storage means aligned, with each fiber wrapped in a metal or metal alloy cladding is included, the material of which is different from that of the fibers, wherein Furthermore, these sheaths to form a uniform structure of the storage means are connected to each other. 2. Magnetic storage means according to claim 1, characterized characterized in that the uniform structure of the covered fibers is in the form of a ribbon and is applied to a flexible tape of non-ferromagnetic material. 3. Magnetic storage means according to claim 1, characterized in that the uniform structure of the coated fibers is applied to a wire core and this covered all around, which consists of non-ferromagnetic material. 4. Magnetic Storage means according to one of the preceding claims, characterized in that that the single domain fibers consist of iron. 5. Magnetic storage medium according to one of the preceding claims, characterized in that the individual area fibers enclosing casings are connected to one another by welding.