SU1670371A1 - Eddy-current method and device two-parameter quality control of articles with electroconductive coating - Google Patents

Abstract

The invention relates to instrumentation engineering and can be used for non-destructive quality control of two-layer electrically conductive products. The aim of the invention is to increase the accuracy of control of the coating thickness with variations of the electromagnetic properties of the base material. The goal is achieved by first obtaining the dependence of the signal phase of the converter on the variations of the electromagnetic properties of the substrate, before determining the thickness the measured phase is refined according to the obtained dependence, and the value of the controlled parameter of the product is obtained from the results of processing the measured signal parameters of the converter according to a given algorithm. A device for carrying out the method comprising a generator 1 connected in series, an eddy current converter 2 with a compensator 3, a signal amplitude measurement unit 4 of a converter signal, a storage unit 5 and a phase metering unit 6, one of the inputs of which is connected to the output of the generator 1 via a phase shifter 7, the second input is connected to the output of the converter 2, and the output connected to the second input of the storage unit 5, is equipped with a phase correction unit 8, one of the inputs of which is connected to the output of the phaseometric unit 6, and the second controlling the input is connected to the output of the storage unit 5. 2 sp. f-ly, 1 ill.

Description

The invention relates to a measuring and control technique and can be used for non-destructive quality control of two-layer electrically conductive products.

The purpose of the invention is to increase the accuracy of controlling the thickness of the coating with variations in the electromagnetic properties of the base material due to detuning from the influence of the latter on the signal

The drawing shows a block diagram of a device for two-parameter eddy current testing of products with an electrically conductive coating.

The device contains a generator 1 connected in series, an eddy current converter 2 with a compensator 3, amplitude measurement unit 4 memory block 5. The device also contains a phase metering unit 6, one of the inputs of which is connected through the phase shifter 7 to the output of the generator 1, the second input is connected to the output of the eddy current converter 2 and the output is with the second input of the storage unit 5. The second output of the phaseometric unit 6 is connected to the first input of the phase correction unit 8, the second input of which is connected to the output of the storage unit 5. The outputs of the correction unit 8 and the storage unit 5 are the outputs of the device.

Correction unit 8 is a storage unit in which the phase of the converter signal from variations in the electromagnetic properties of the substrate in a given range is entered (obtained on samples from the base material without coating).

The method is based on homothetic hodographs of the output signal of the converter from variations in the thickness of the coating layer at different fixed values of the electromagnetic properties of the substrate under test with the center at the compensation point of the converter signal, which is simultaneously the pole of the hodograph family of the output signal of the converter - logarithmic spirals.

The eddy current method of two-phase quality control, for example, flat non-magnetic, electrically conductive products using an eddy current testing device is as follows. Pre-eddy current transformer powered by alternating toksm from generator 1 is placed on the surface of a massive sample from the coating material, compensator 3 signal is compensated by the compensator 3, then converter 2 is placed on samples from the base material without coating and the signal from the converter is phase dependent on variations Electromagnetic properties (specific electric conductivity about bases: DU (s) within specified limits chosen from the condition of possible variations of properties of controlled products. The output signal of the converter 2 is fed to the input of the amplitude measurement unit 4 and then to the input of the memory side 5. The output signal phase of the converter 2 is measured using a phaseometric block b, one of the inputs of which is connected to the output of the generator 1 through the phase shifter 7, the second input connected to the output of the converter 2, and the output to the second input of the storage unit 5. Using the phase shifter 7, the phase p of the output signal of the converter 2 is controlled so that, in the absence of a coating, the output voltage of the phase meter The richer block b was zero. In the storage device 5 signals

proportional to amplitude A and phase ip of the output signal of converter 2, are processed in accordance with the expression InA-iK p, where, 07 the output of block 5 is a voltage proportional to the electrical conductivity of the base of the monitored product, and the output of the storage unit 5 is one from the outputs of the device as a whole. The second output of the device as a whole is the output

correction unit 8, to one of the inputs of which, from the output of phaseometric unit 6, a signal proportional to the phase p of the converter 2 signal is sent, and to another input - a signal proportional to the specific

electrical conductivity and from the output of the storage unit 5 In block 8 of the correction of hoanits, the previously obtained dependence D (/ (U). in accordance with which correction of the signal arriving

on its first input from the output of the phase metering unit 6. At the same time, the output signal of the correction unit 8 is proportional to the tops-controlled layer of the coating and practically does not depend on or variations in the specific

electrical conductivity of the base product within the specified limits.

In relation to the solution of the measurement problem, for example, the thickness of the aluminum coating on a non-ferromagnetic basis

 25 mcm / m measurement errors are reduced by about 5 -10 times while monitoring the products with ferromagnetic coating with magnetic permeability and t 25; 100,000 10 times or more.

Thus, the method and the device implementing it provide a reliable result of measuring the thickness of the coating when the electromagnetic properties of the base of the product vary over a wide range. This method can be used to control the thickness of electroplating, cladding and other electrically conductive coatings widely used in the national economy.

on any (ferromagnetic, non-ferromagnetic or dielectric) bases of flat, cylindrical and other forms (with simultaneous control of the electromagnetic properties of the basis of products).

Claims (2)

Claim 1. An eddy current method of two-parameter quality control of products with an electrically conductive coating, comprising In that an eddy current transducer powered by alternating current, the signal of which is pre-compensated on a massive sample of the coating material, is placed in the control zone, the phase of the signal of the converter relative to the phase of the signal introduced into the converter by a sample of base material is measured, and the thickness of the coating, the amplitude of the output signal of the converter is simultaneously measured and the results of the amplitude and phase processing of the output signal of the converter are determined bases-keeping, characterized in that. in order to increase the accuracy of controlling the thickness of the coating with variations of the electromagnetic properties of the base material, using the samples of the base material without coating, the dependence of the signal phase of the converter on the variations of the electromagnetic properties of the base in a predetermined range is obtained, and after determining the electromagnetic properties of the substrate to be tested, before determining the thickness Coverage, specify the measured phase of the output signal of the converter according to the previously obtained dependence. 2. A device for eddy-current two-parameter quality control of products with an electrically conductive coating containing a series-connected generator, eddy-current converter with a compensator, a signal amplitude measuring unit of the converter, a storage unit and a phase meter unit, one of the inputs of which is connected to the generator output via a phase shifter, the second the input is connected to the output of the converter, and the output is connected to the second input of the storage unit, characterized in that it is provided with a phase correction unit, o Institute from the inputs of which is connected to the output of the phase-measuring unit, and the second control input is connected to the output of the storage unit.