SU1310619A1 - Method of measuring thickness of surface of processed layers of ferromagnetic electroconductive articles - Google Patents

Abstract

The invention relates to the non-destructive testing of materials and products and can be used to measure the thickness of surface-treated layers of ferromagnetic products. The purpose of the invention is to improve the measurement accuracy. For this purpose, a controlled article 8 with a surface-treated layer 9 is placed in the gap of the magnetic circuit 4 of an electromagnet, the winding 5 of which is powered from the network through a stabilized rectifier 7 with a voltage regulator 6. At the same time, the product 8 is in the control zone of the converter with excitation 2 and differentially connected 3 coils, and the frequency of the generator 1 signal feeding the converter is chosen fixed and such that the minimum depth of penetration of the magnetic field into the product material is greater than the maximum of the variable thicknesses of layer 9, but less than the minimum, the thickness of the controlled product. Continuously changing the intensity of the constant magnetic field of the electromagnet, its value is fixed, at which the output signal of the converter reaches its maximum. After that, the frequency of the generator 1 is changed continuously in a range that provides for the penetration of eddy currents to a depth from a few fractions of the thickness of the treated layer to a value equal to or greater than the thickness of the layer being monitored. Then, the sensor signals generated by it at adjacent frequencies are compared and their difference is determined, and the layer thickness is determined as a function of the frequency at which this difference is maximum. 1 il. 0 (L / / s. 00 O Ci with

Description

The invention relates to non-destructive testing of materials and products and can be used to measure the thickness of surface-treated layers of ferromagnetic electronically conducting products.

The purpose of the invention is to improve the measurement accuracy by increasing the differences in the magnetic permeability of the layer and the substrate of the product.

The drawing shows a block diagram of the device for the purpose of defusing the method.

The diagram shows a sinusoidal current generator 1, a vortex converter connected to it, states of excitation coil 2 and two measuring coils 3, which are differentially connected, a magnetizing system consisting of magnetic circuit 4 of an electromagnet, winding 5 of an electromagnet connected by means of regulator 6 voltage with a stabilized rectifier 7 feeding the winding 5. The treated ferromagnetic material, 1e, consists of a magnetically hard surface layer and a magnetically soft base.

The method is based on the fact that when the product is magnetized, the relative magnetic permeability of the surface layer changes slightly, while the relative magnetic permeability of the base of the product increases, reaches its maximum value, and then decreases. At a certain value of the intensity of the magnetic field, there is a maximum difference in the magnetic permeability of the base and the layer. This maximum difference is determined by the maximum output of the eddy current transducer, into the control zone of which the processed product is interfered, and the excitation current frequency is chosen so that the minimum penetration depth of the magnetic field into the product material is greater than the maximum measured thickness of the treated layer, but less than the minimum thickness controlled product.

The method for measuring the thickness of the surface-treated layers of ferromagnetic conductive products is carried out as follows.

The controlled article 8 with the surface-treated layer 9 is placed in the gap of the magnetic circuit 4 of the electromagnet, the winding 5 of which is powered from the network through a stabilized rectifier 7 with a voltage regulator 6 that linearly changes the current. In the immediate vicinity of the controlled layer 9 place the transducer with coils 2 and 3.

When the product 8 is placed into the gap of the magnetic circuit 4, a sinusoidal wave is supplied to the excitation coil 2 from the generator 1

the current that, flowing through the coil 2, creates a magnetic field that penetrates into the product 8 to a depth exceeding the maximum thickness of the surface treatment layer 9, but less than the minimum thickness of the product 8. The voltage in the winding 5 of the electromagnet gradually changes with the voltage regulator 6, Achieve maximum signal at the output of the converter. This maximum signal corresponds to the maximum difference in the relative magnetic permeabilities of the base and layer. After that, the magnetic field intensity is fixed, the frequency of the generator 1 supplying the converter is changed continuously in the range ensuring the penetration of eddy currents to a depth from a few fractions of the thickness of the treated layer to a value equal or higher to the thickness of the product being tested.

at adjacent frequencies, their difference is determined, and the layer thickness is determined as a function of the frequency at which this difference is maximal.

At the same time, due to the maximum difference in the relative permeability of the surface treated layer and the base of the product, the accuracy of determining the frequency of the excitation current at which the signal difference of the converter is maximum is obtained and, consequently, increases

Accuracy of measuring the thickness of the surface layer of the product.

Claims (1)

Invention Formula A method for measuring the thickness of the surface-treated layers of ferromagnetic electrically conductive products, namely, that the converter is placed in the control zone, the frequency of the drive current of the converter is changed continuously in the range that allows the penetration of eddy currents to a depth equal to or greater than the thickness of the test layer is determined by the difference between the output signals of the converter at adjacent frequencies, and the thickness of the layer is determined as a function of the frequency at which this difference is maximum, characterized in that, in order to improve the accuracy of measurement, after placement in the zone the control transducer is excited by a current of a fixed frequency, the value of which is chosen so that the minimum depth of penetration of the magnetic field into the material of the product is greater than the maximum of the measured thicknesses of the treated layers, but less than the minimum thickness of the controlled product, magnetise the product with a constant magnetic field with continuously varying strength. 213106194 select the value of the intensity of the submagre-machined layer is determined by field, at which the signal is at the magnitude of the voltage magnet output of the transducer is maximum, and pushing zero.