DE840276C - Magnetic material tester - Google Patents

Description

The invention relates to a method and an arrangement for non-destructive magnetic material testing. The invention is particularly useful for examining sheet metal or plates made of iron or other magnetisable ones N materials. In the case of material tests of this type, the procedure is generally as follows: that a magnetizing coil is fed by a suitable alternating voltage, through which the material to be examined increases or decreases in the rhythm of the alternating voltage. is remagnetized. The magnetizing coil provides together with a second Winding (induction winding) and the ferromagnetic material to be examined represents a transformer, in which, if necessary, other items with known Properties for the formation of a closed external magnetic line of force path can be provided. The induction can be achieved by means of the induction winding measure and from further: \ leßergel) nissen the properties of the to be examined Determine Almaterials.

In such material tests, it is important to determine the magnetization properties to know in different directions. For this purpose one was I, isher forced, lei sheets and plates to set the measuring device at different angles and determine the mean value from the corresponding eating results. Farther it is difficult with the known measuring devices, a precisely defined piece of the material to be investigated to be enforced magnetically, rather are still to take into account scattering lines of force that falsify the eating result and one make it difficult to record the losses precisely.

This disadvantage is avoided by the invention. The invention allows the magnetization curve to be recorded and the \ loss figure, with the average value over every angle to the rolling direction results. The invention consists in that a circular ring-shaped Piece of the material to be examined in radial directions in the rhythm of a AC voltage is magnetically permeated.

Accordingly, the use of a ring-shaped Magnetization body appropriate. The magnetizing body is preferably made of composed of individual core sheets. The core sheets are in their magnetic Properties known and expediently have high permeability and low loss factor. The individual sheets can each be arranged radially in a ring in their planes and be held.

The yoke can also be designed as a mirror image to the sheet metal.

The ring-shaped magnetization body contains the magnetization winding and also the induction winding. When using two magnetizing bodies but it is also possible to have one magnetizing body with the magnetizing winding and to provide the other with the induction coil. The main advantage of the invention is due to the exact measurement of the losses, since only the annulus is exclusive is magnetized and therefore the magnetized sheet weight is precisely defined is. In any other arrangement in which, for. B. a circular magnet yoke itself is used in ring-shaped pole pieces, this cannot be achieved.

An exemplary embodiment of the invention is shown schematically in the drawing shown. The figure shows an annular magnetizing body in section and seen from above. The ring-shaped magnetizing body consists of the iron yoke I, which is expediently composed of individual core sheets and the windings. Here the magnetization winding is denoted by 2 and the induction winding by 3. The arrangement according to the invention has the effect that of the 5lagnetfluss only the circular Part of the test plate 7 is penetrated. The direction of flow, which is always radial, is illustrated by arrows 4, 5, 6.

The induction can be measured by means of the induction winding. the end the flooding results in an approximate field strength. Through a performance measurement the loss figure can also be determined.

Claims (5)

PATENT CLAIMS: I. Method of non-destructive magnetic Material testing of sheets or plates made of magnetizable material, thereby characterized in that a circular piece of the material to be examined is magnetically permeated in radial directions in the rhythm of an alternating voltage. 2. Arrangement for performing a method according to claim 1, characterized by a ring-shaped magnetizing body, whose magnetic The flow of force through the workpiece to be examined can be closed in each case in the radial direction is. 3. Arrangement according to claim 2, characterized in that the magnetizing body from individual core sheets of preferably high permeability and low loss factor is composed. 4. Arrangement according to claim 3, characterized in that the individual Metal sheets are each arranged in their planes radially in a ring. 5. Arrangement according to claim 2 to 4, characterized by double (symmetrical) design of the magnetizing body on both sides of the test body.