SU1670577A1 - Eddy current device to check the product's thickness and electromagnetic properties - 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 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 the fact that the eddy current device for controlling the coating thickness and the electromagnetic properties of the base of the product, containing a series-connected generator, eddy current transducer with compensator, amplitude detector and storage unit, as well as a phase meter unit, one of the inputs of which is connected to the generator output via a phase shifter, the other input is connected to the converter output, and the output is connected to the second input of the storage unit, is provided with a second storage unit, the input of which is connected to the output of the first storage unit, and the phase shifter is controlled and its control input is connected to the output of the second storage unit. 1 il.

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 effect of the latter on the signal of the converter.

The drawing shows a structural diagram of an eddy current device for controlling the coating thickness and the electromagnetic properties of the substrate.

The device contains a series-connected generator 1. converter 2 with a compensator 3, an amplitude detector 4 and a storage unit 5, as well as a phase metering unit 6, one of the inputs of which is connected to the output of the generator 1 through the phase shifter 7, the other input is connected to the output of the converter, and the output is connected to the second input of the storage unit 5, the second storage unit 8, the input of which is connected to the output of the first storage unit 5, and the phase shifter 7 is controllable and its control input is connected to the output of the second storage 8. The outputs of the Optional Lok zometricheskogo unit 6 and the first Salo

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Mining unit 5 are outputs of the device as a whole.

The device is based on the homototicity property of the transducer output signal from variations in coating thickness and the electromagnetic properties of the base of the product under test, centered at their compensation point, being simultaneously the pole of the family of logarithmic spirals with a parameter proportional to the electromagnetic properties of the product base.

In relation to solving the problem of measuring the thickness of an aluminum coating and the specific electrical conductivity of a non-magnetic base metal, the eddy current device works as follows

The signal of the eddy current transducer is pre-compensated by using a compensator 3 on a massive sample of the coating material (aluminum), then using the set of samples from the base material, which have a variation of electromagnetic parameters within the specified limits, the dependence A (Vgr) of the phase Lu on the output signal of the converter is obtained from voltage Vg, proportional to the electromagnetic properties of the base samples.

The resulting dependence .Ay (V (j) is entered into the second storage unit 8. The first storage unit 5 is inserted, for example, the dependence lnA + K p, where A and p are, respectively, voltages proportional to amplitude and phase - at the output signal of the converter., 07 with a coating material with a specific electrical conductivity close to aluminum, the Vg acting at the output of the first storage unit 5 does not depend on variations in the thickness of the layer of electrically conductive coating applied to a non-magnetic metal substrate. control A converter 2 powered by alternating current from generator 1. is placed on the surface of the product under test (not shown in the drawing). The signal of the converter through amplitude detector 4 is fed to the input of the first storage unit 5, to the second input of which output from the phaseometric unit 6 is proportional to the phase p of the output signal of the converter 2. Using the phase shifter 7, the initial value of the phase / is set, which is varied by the output of the second memory block (via the control The first input of the phase metering unit 6) with changes in the electromagnetic properties of the base of the product being inspected in accordance with the Du dependence (/ d) obtained earlier (and entered into the unit 8). The voltage VpHa of the unit 8 is supplied from the output of the unit 5 At the outputs of the phaseometric unit b and the first storage unit 5 at the same time act accordingly the voltage proportional to the values of the thickness of the coating layer and the electromagnetic properties of the base of the tested product.

Investigations of the device have shown that, for example, when solving the problem of measuring the thickness of an aluminum coating on a non-ferromagnetic basis with cr −1; 25 mS / m, the measurement error of this device is reduced compared to the known 5–10 times, and when monitoring products with a ferromagnetic-based coating with a magnetic permeability of € 25; 100,000 - about 10 times or more.

Thus, the eddy current device for controlling the coating thickness and the electromagnetic properties of the product base provides a significant increase in the accuracy of controlling the coating thickness with variations in the electromagnetic properties of the product base over a wide range and can be widely used to control the quality of products with electrically conductive, electroplating, plating, etc. coatings mi

Claims (1)

An Eddy Current Device for Monitoring Coating Thickness and Electromagnetic Properties of a Product Base, containing a generator connected in series, a eddy current transmitter with a compensator, an amplitude detector and a storage unit, also a phase meter unit, one of the inputs of which is connected to the generator output via a phase shifter, the other input with an output the converter, and the output is connected to the second input of the storage unit, characterized in that, in order to increase the accuracy of controlling the coating thickness In variations of the electromagnetic properties of the base material, it is equipped with a second storage unit, the input of which is connected to the output of the first storage unit, and the phase shifter is controlled and its control input is connected to the output of the second storage unit.