DE936541C - Magnetic inductive testing method for semi-finished and finished parts made of magnetizable materials - Google Patents

Description

Magnetic inductive test method for semi-finished and finished parts made of magnetizable Materials addendum to patent 848276 In the main patent 848 276 it was pointed out that that a magnetic inductive mix-up check with only one field strength for separation different types of steel is not always sufficient, and therefore the Test carried out at two field strengths. This procedure has proven itself when checking for mix-ups of steels in consumer works have so far proven to be sufficient.

However, there are concerns that there is a risk of confusion in steel mills, where a very large number in their magnetic properties distinguishing between similar steels is not always sufficient. It appears namely that the magnetization curves of different steels in one or more Intersect points. The points of intersection of the magnetization curves are depending on the type of steel at different levels of field strength, and it is therefore not always possible be to choose two field strengths during the test so that there is no possibility of confusion turned off.

In order to achieve a separation of any number of steel types with certainty, According to the invention, the test is performed at more than two field strengths that differ from one another carried out. In order to achieve a very good separation, it is useful to use the Test area according to the invention for a considerable difference in field strength, at least I to 3 tens powers to extend. The field strengths at which an examination is carried out, are usually at least in proportion 1: 2 different.

The voltage induced across the test object approximates the time Change in magnetic field strength proportionally. To the materials at various To be able to compare field strength properly, it is necessary to measure the sensitivity adapt to the field strength. A very simple way to do this is that the Measurement sensitivity is changed approximately inversely proportional to the field strength. This is achieved, for example, in a simple manner that at the same time with switching off resistors in the magnetization circuit to increase the field strength resistors are switched on in the measuring circuit.

With the simplicity in which the change in field strength on the one hand and the change in measurement sensitivity on the other hand, e.g. B. by resistors, can be produced electrically, the process is excellent for a semi- or fully automatic execution. The exams can be one after the other run by a simple, mechanically or manually operated switch. The time required for the individual test is so small that the entire process can be done in a fraction of a second.

Instead of performing a number of individual tests on different According to the invention, the field strength can also be used for a test when the field strength is continuously changing Field strength are carried out, the measurement sensitivity of the field strength about the other way around is made proportional ..

Another method to measure the sensitivity of the level of the To make magnetization independent consists in the fact that the change over time of the magnetic flux is kept the same regardless of the level of magnetization will. This is achieved in a simple manner that the magnetization with Direct current and superimposed alternating current is carried out. The maximum field strength used then results from the sum of the direct current and alternating current magnetization, while the AC magnetization is predominantly decisive for the induced voltage is.

The height of the alternating current magnetization can easily be chosen so that the voltage difference induced across the test object and reference standard in simpler Way is to be read by a measuring device or used to operate a relay can be. According to the invention, the change in the field strength is achieved in stages or continuous change in DC magnetization over a wide range of field strengths performed. This procedure requires a little more effort than that the former, but it has the advantage over this that it can easily become very high Field strengths and thereby also achieve large field strength differences in a simple manner permit. It is just like the former to be semi or fully automatic Implementation suitable.

Claims (4)

PATENT CLAIMS I. Magnetic inductive test method for semi-finished products and Finished parts made of magnetizable materials, especially steel, according to patent 848 276, characterized in that more than two tests at different field strengths be performed. 2. The method according to claim I, characterized in that the tests be made in a field strength range that extends over more than a power of ten extends. 3. The method according to claims I and 2, characterized in that that the test is carried out with continuously changing field strength, wherein at the same time the measurement sensitivity is regulated so that it approximates the field strength conversely, is proportional. 4. The method according to claims I and 2 with combined alternating current and direct current magnetization, characterized in that the change in field strength made by gradually or continuously changing the DC magnetization will.