SU1456764A1 - Method of measuring thickness of coating of articles made of ferromagnetic materials - Google Patents

Abstract

The aim of the invention is to improve the accuracy of determining the thickness of non-magnetic coatings on ferromagnetic products. Lovnienpe accuracy is achieved due to the fact that at the place of measurement of the crowds; otherwise, the coating preliminarily measures the value of AND, the intensity of the magnetic field. This makes it possible to take into account the magnitude of the residual magnetization of the product when determining the thickness of the coating h followed by the following h h (kH | + b), where h,. - the value of the coating crowd measured by the thickness gauge; k and b are coefficients determined experimentally. 1 hp f-ly, 1- tab.

Description

The invention relates to a krntr (l-, but-metering technique and can be used in measuring the thickness of protective coatings of products from ferromagnetic materials.

The purpose of the invention - increase :. accuracy - by taking into account the magnitude of the residual magnetization of the product

The method is implemented as follows.

The thickness gauge used to measure coatings, magnetic or eddy current, is adjusted according to the control samples, which, as a rule, are equipped with thickness gauges of this type. On control samples, the magnetic field HQ is measured and its maximum value is recorded. The intensity H of the magnetic field on the product is then measured at the measurement site of the coating thickness and compared with that obtained on control samples.

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If N. is 4 N, then measurements of the thickness of the coating are made directly from the value of the indicator of the thickness gauge. At H N J, the measurement of the thickness of the coating is carried out by installing a thickness gauge transducer on the product and fixing a non-size h on the indicator. The true value of the thickness of the coating is obtained from the ratio

h h, - (kH + b),

where k and b are coefficients determined experimentally. k

The coefficients k and b are obtained by analyzing the dependence of the thickness h. from I. by its linear approximation. Data for determining dependencies is obtained by measuring with a specific thickness gauge the same thickness of the coating at various degrees of magnetization being monitored

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3145

product at the measurement site. The coefficients k and b may be different for the same device in different ranges of H ;. Various degree of magnetization of the product create, for example, with. using a permanent magnet, touching the product surface through a layer of cardboard of various sizes.

Example. The measurements of steel products at various degrees of magnetization are carried out using thickness gauges MT-20H and ITGP-1B. The MT-20H instrument measures a thickness of 30 µm, and the IGP-} B is 37 µm. The magnetic field strength is measured with the help of the MR-3X instrument. The magnetic field strength of the Hg control samples does not exceed 2 A / cm.

The data of measuring the thickness of the coating using the indicated instruments according to the proposed and proposed methods are given in the table,

Residual magnetization up. 20-25 A / cm is recorded on real parts at the measurement positions of the coating thickness.

Using empirical coefficients k and b, the thicknesses of the coating were calculated, which made it possible to refine these thicknesses, and also carried out measurements after demagnetization of the product.

For the device MT-20N coefficients

have the following meanings: when And j 7 .10 A / cm k 3.5; b -3, and for the device ITGP-1B with H; 74 A / cm k -0.6; b 2,7 (the dimension of the coefficient

um

k - 77 dimension of the coefficient A / tM

b - μm).

five

0

five

0

five

0

Taking into account the coefficients obtained, amendments are made to the measurement results using the MT-20N and ITGP-1B instruments,

As can be seen from the table, the accuracy of measuring the thickness of the coating of the product according to the proposed method is much higher than that of the known method.

Claims (1)

Invention Formula 1, a method for determining the thickness of coatings for products made of ferromagnetic materials, concludes that an electromagnetic thickness gauge is adjusted according to control samples, a thickness gauge converter is installed on the product being monitored, and a thickness value hj of the coating is recorded using a thickness gauge indicator, characterized in that, in order to increase the accuracy on the controlled product at the installation site of the thickness gauge transducer, the magnitude of the magnetic field is also measured, and the thickness of the coating is refined according to the ratio eniyu h b i - (kHi + b), where k and b are the coefficients, the order is the dependence of the thickness gauge on the magnetic field  . H; -. 2, Method according to Claim 1, characterized in that prior to installation of the transducer of the thickness gauge on the monitored product, the magnetic field strength of the control samples is measured and the monitored product is demagnetized to the magnetic field strength of the control samples.