SU1663402A1 - Eddy-current device for measuring electroconductive coating thickness - Google Patents

Abstract

The invention relates to measuring technique and can be used to measure the thickness of electrically conductive coatings. The purpose of the invention is to increase the information content by measuring the specific electrical conductivity of the coating material as well, because a device for measuring the thickness of electrically conductive coatings containing a series-connected generator 1, a converter 2 with an electrically conductive screen 3 and a compensator 4, and a phase meter 5 , the second input of which is connected to the output of the generator 1 through the phase shifter 6, is equipped with a signal adjustment unit 7, the first input of which is connected to the output of the phaseometric unit 5, and the second input to the output of the adjustable source 8 of the reference signal, and the signal ratio measurement unit 9, one of the inputs of which is connected to the output of the phaseometric unit 5, and the other input to the output of the signal adjustment unit 7. 1 il.

Description

The invention relates to a measurement technique and can be used, for example, to measure the thickness of conductive coatings when applied in an electrolytic bath,

The purpose of the invention is to increase the information content by measuring also the electrical conductivity of the coating material.

The drawing shows a structural diagram of an eddy current device for measuring the thickness of conductive coatings.

The device comprises a series-connected generator 1, a converter 2 with an electrically conductive screen 3 and a compensator 4, and a phase meter unit 5., the second input of which is connected to the output of the generator 1 through a phase shifter 6, as well as a signal control unit 7, the first input of which is connected to the output of the phase meter unit 5 and the second input is to the output of the adjustable reference signal source 8, and the signal ratio measuring unit 9, one of the inputs of which is connected to the output of the phase meter unit 5, and the other input to the output of the control unit 7 signal.

The operation of the device is based on the homothetic ™ hodographs of the output signal of the converter from variations in coating thickness and electromagnetic properties of the base of the product under test, as well as the proportionality of the dependences of the phase of the output signal of the converter on variations in coating thickness, with different electrical conductivities. Thus, if the thickness of the coating layer and the corresponding phase are known, it is possible to unambiguously judge the electrical conductivity of the material of the coating layer.

With respect to measuring the thickness of coatings on bases with a flat surface, the eddy current device operates as follows,

Eddy current transducer 2, equipped with an electrically conductive screen 3, is placed on the surface of the controlled product. The generator 1 supplies alternating current to the converter 2 with an electrically conductive screen 3, the output signal of which is compensated on a massive product made of coating material using a compensator 4. After that, the signal is fed to the input of the phase meter unit 5, the second input of which is connected to the output of the generator 1 through the phase shifter 6. C Using the phase shifter 6, the phase of the reference signal of the phase unit 5 is set. At the same time, a signal proportional to the thickness of the coating layer acts on its output. Then the output signal of the phase meter unit 5 is supplied simultaneously to the inputs of the signal control unit 7 and the signal ratio measuring unit 9. A signal proportional to the phase or thickness of the coating acts simultaneously at the output of the control unit 7 and at the second input of the signal ratio unit 9. The outputs of the control unit 7 and the signal ratio measuring unit 9 are the outputs of the device as a whole.

Using the block 7 regulation and the source 8 of the reference signal at the output of block 7, a voltage is proportional to the value of the thickness of the controlled coating having a nominal value of σ _η specific conductivity. In this case, the transmission coefficient of the signal ratio measuring unit 9 is set so that the voltage at its output corresponds to the nominal value (7 _{P of the} coating material. With constant σ _η and variations in the thickness of the controlled coating layer, the output voltage of the unit 7 is proportional to the thickness changes.

In the case of deviation of the value of σ _η from the nominal value, it is necessary to measure the actual thickness of the coating by some other known method, for example, metallographic method. After that, by changing the voltage at the output of the adjustable source 8 of the reference signal, it is necessary to set the signal corresponding to the actual value of the coating thickness at the output of block 7. At the same time, the signal arriving at the input of block 9 from the output of block 7 changes, which leads to a proportional change in the voltage at the output of block 9 measuring the signal ratio, i.e., at the output of the block that selects information on the value of σ _η .

Studies have shown that, for example, when solving the problem of measuring the electrical conductivity σ _{η of} coatings on non-magnetic metals, the dependence of the signal acting at the output of the signal ratio measuring unit 9 is directly proportional to the electrical conductivity σ _{η of the} coating layer material, which greatly simplifies the implementation of the device.

Thus, the eddy current device for measuring the thickness of electrically conductive coatings provides an increase in the information content of the control by measuring the specific electrical conductivity of the coating material as well and can be used to control the application of the plating process with a significant economic effect. 5

Claims (1)

Claim Eddy current device for measuring the thickness of electrically conductive coatings, comprising a series-connected generator, a transducer with 10 electrically conductive screens and a compensator, and a phase meter, the second input of which is connected to the output of the generator through a phase shifter, characterized in that, in order to increase the information content by measuring the specific electric conductivity of the coating material, it is equipped with a signal control unit, the first input of which is connected to the output of the phase meter unit, and the second the first input is to the output of the adjustable source of the reference signal, and the signal ratio measuring unit, one of the inputs of which is connected to the output of the phase meter unit, and the other input to the output of the signal control unit.