SU1456860A1 - Method of non-destructive check of magnetic characteristics of ferromagnetic materials - Google Patents

Description

one

The invention relates to instrumentation engineering and can be used for non-destructive testing of the quality of ferromagnetic materials, the magnetic properties of electrical steels, as well as for the determination of mechanical stresses.

The purpose of the invention is to increase the reliability of quality control of anisotropic cold rolled electrical steel by reducing the effect of air gap oscillations between the transducer and the surface of the material being monitored.

FIG. Figure 1 shows diagrams of changes in magnetic permeability in l weak fields in the plane of the electrical steel sheet under study; in fig. 2 - dependences of the initial signal of the converter and the signal proportional to the current on the values. air gap.

Curve 1 (.Fig. 1) is depicted for steel with high magnetic properties., Curve 2 for steel with low magnetic properties, curves 3 and 4 for total magnetic permeability along all radial directions in the mold.

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bones of a controlled sheet for high and low magnetic steel, respectively. It follows from the diagram that the total values of magnetic permeability along all radial directions of magnetization reversal, which determine the magnitude of the magnetizing winding current, are equal for steels of different quality.

In the case of non-destructive testing of mechanical stresses when the material is re-reduced by a radially directed circular magnetic field, the total value of magnetic permeability in all re-magnetization directions also remains constant regardless of the magnitude of the applied voltages. Therefore, when the material is magnetized by a radially directed circular magnetic field, the change in the magnetizing winding current is a measure of the air gap in any steel quality and any

(increase) the signal of the added converter. The sum of these signals carries information about the quality of the material being monitored and is practically independent of the size of the air gap.

In a number of cases, the current of the inductive converter remains constant, for example, when using a current source or a constant voltage source. At the same time, the effect of the air gap is attenuated by measuring the signal proportional to the sum magnetic flux in all radial re-magnetization directions in the plane of the material being monitored and subtracting it from the signal of the inductive converter.

The method is carried out as follows.

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Added inductive transform

values of elastic mechanical straps containing 25 cylindrical

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FIG. Figure 2 shows the dependence of the added inductive transducer signal when magnetization reversal by a radially directed circular magnetic field on the size of the air gap (curve 5) and a signal proportional to the current of the magnetization reversal winding on the gap (curve 6). The proportionality factor is chosen such that when increasing (decreasing) the air gap by a fixed amount, the increase (decrease) of the signal proportional to the magnetizing current is equal to

where

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five

An electromagnet with a magnetizing winding located at the internal pole and a measuring element located under the external pole is installed on the surface of the material under test with a certain gap. Connect the magnetizing winding to the power source. The signal of the measuring element of the inductive converter is summed with the help of an adder with the signal of the magnetizing winding current sensor. The resulting signal is fed to the recorder, which can be used as a voltmeter.

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Claims (1)

METHOD FOR KERRUSHING CONTROL OF MAGNETIC CHARACTERISTICS OF FERROMAGNETIC MATERIALS, which consists in the fact that the controlled material is magnetized and received a signal