SU1265583A1 - Method for nondestructive check of coating thickness and device for effecting same - Google Patents

Abstract

The invention relates to non-destructive quality control of coatings and can be used for the thickness measurement of three-layer products in various areas of the national economy. The purpose of the invention is the expansion of functional capabilities due to the simultaneous control of the thickness of the non-ferromagnetic coating and the ferromagnetic sublayer on the non-ferromagnetic base, due to the fact that the electromagnetic transducer is compensated on the reference sample with no ferromagnetic sublayer thickness, additionally in the control area of the transducer the second reference sample is placed with a ferromagnetic sublayer with a thickness e and determine the phase f of the output signal of the converter, which is taken as The readout value, the thickness of the coating on the tested product are determined using a phase difference meter by phase change, and (the sublayer thickness is determined by the change in amplitude (L T A and phase L H output signal of the converter from the ratio $ A using a functional converter. 2 sec. clause of f-ly, 2th il., you ate 00 oo

Description

The invention relates to non-destructive quality control of the coating and can be used for mass measurement of three-layer products in various parts of the national economy.

The purpose of the invention is to expand the functionality by simultaneously controlling the thickness of the non-ferromagnetic coating and the ferromagnetic sublayer on the ferromagnetic base.

On. Fig. 1 shows the hodographs of the output signal of the transform, and depending on the thickness of the coating; in fig. 2 is a block diagram of a device for non-destructive coating thickness coatings.

The device for non-destructive testing of coating thickness contains a series-connected generator 1, an electromagnetic converter 2 with a compensator, an amplifier 3, an amplitude detector 4, an amplitude controller 5 and a second indicator 6 connected to the second input of the generator 1, sequentially connected phase shifter 7, meter 8 phase difference, the second input of which is connected to the output of the amplifier 3, and the first indicator 9, the functional converter 10, executed as a converter of the function y e, where K 1 / 4p, p is a generalized parameter, connected between the output of the phase difference meter 8 and the second input of the regulator 5 amplitude. The method of non-destructive testing of coatings using the device is carried out as follows. In the control zone of the electromagnetic converter 2, reference samples without coating are placed alternately with thicknesses of the ferromagnetic sublayer extracted from the Vpp condition and a reference sample with a fixed thickness of the sublayer that compensates the output signal of the converter 2. On a sample with a sublayer thickness o determine the phase H of the output signal of the transducer 2, which is taken as the origin. Phaser 8 ensures that, with a change in the thickness of the sublayer () within the measured range, the readings of the first indicator 9 remain zero. In this case, when testing products with a two-layer coating on the indicator

9 will be recorded at an lh of the converter 2 signal proportional to the thickness of the coating. At the same time, amplified by amplifier 3 and detected by the amplitude detector 4 the signal of converter 2 is fed to the input of the amplitude regulator 5, which restores the amplitude of the signal to the level determined by the thickness of the measured sublayer at no coverage. The level is restored in proportion to the thickness of the coating by acting on the control input of the voltage amplitude regulator 5 from the output of the 10o function transducer. On the indicator 6 a value proportional to A is recorded. sublayer thickness

Claims (2)

The hodographs (Fig. 1) of the output signal of the converter 2, depending on the measurements of the coating thickness (dashed lines) are not approximated by circular arcs. The lines of influence of the thickness of the coating are segments of curves of the natural exponential function, which, depending on the phase angle l% and parameter 6 are approximated by the function Hodograph analysis shows that all the curves, regardless of the thickness of the coating, intersect in a certain small area, which is uniquely characterized by the thickness of the sublayer determined from , Choosing the origin at this point and determining the initial phase of the signal by placing the sample in the zone of the transducer with the sublayer thickness I, ej by changing the phase dH, determining the thickness of the upper layer, and measuring the amplitude and phase for the thickness of the sublayer from the ratio A x X. Claim 1. A method of non-destructive control of coating thickness, which consists in placing a reference sample of a fixed thickness in the control zone of an electromagnetic converter, and compensating for the signal of an electromagnetic converter, placing the controlled product in the control zone of the latter, and determining the thickness of the converter through the output signal of the converter distinguished by the fact that, with the aim of expanding the functionality by simultaneously controlling the thickness of the nonferromagnetic coating and ferro on a non-ferromagnetic base, the signal of the electromagnetic converter is compensated on the first reference sample without a coating with a ferromagnetic sublayer of thickness o / fP Additionally, in the control zone of the electromagnetic converter, a second reference sample with a ferromagnetic substrate of thickness 4 o determines the phase V of the converter output signal, which taken as a reference point, the thickness of the coating on the monitored product is determined by the phase change and H, and the thickness of the sublayer by the change in amplitude the output phase of the converter ratio. where is the thickness of the sublayer normalized by the equivalent radius of the converter; p is a generalized parameter; A is the amplitude of the output signal of the converter; bif - phase increment of the output signal of the converter 2. Device for non-destructive coating thickness control, containing a series-connected geyator electromagnetic converter with a compensator, an amplifier and an amplitude detector connected to the second output of the phase shifter, a phase difference meter, the second input of which is connected to the output of the amplifier, and the first indicator, a functional converter and the second indicator , characterized in that, in order to extend the functionality by simultaneously controlling the thickness of the non-ferromagnetic coating and ferromag It is equipped with an amplitude regulator connected between the output of the amplitude detector and the input of the second indicator, and the functional converter is designed as a converter, a type of function, where K 1 / 4p, p is a generalized parameter, and is connected between the output of the meter phase difference and the second input of the amplitude controller.