SU1698630A1 - Magnetostatic method of non-destructive quality control of ferromagnetic articles - Google Patents

Abstract

The invention relates to magnetic measurements and can be used to determine the thickness of non-magnetic coatings applied to the surface of ferromagnetic products. The aim of the invention is to expand the field of use by determining also the thickness of a nonmagnetic coating on a ferromagnetic product — due to the fact that in the magnetostatic method of non-destructive quality control of ferromagnetic products, which means that the controlled product is magnetized to saturation, the applied field is reduced to zero by changing the direction and decreasing the magnitude of the magnetizing current, then the product is acted upon by the field of the opposite direction; At the moment of equality of zero induction in the product, an additional 1p of demagnetization current is measured at a given amount of induction in the negative region, and the thickness 5 of the nonmagnetic coating is determined from the ratio 6 A + + B () + C () 2, where A, B , С - constants, determined by peregnification of control samples with different non-magnetic coating thickness. 1 il. cl

Description

The invention relates to magnetic measurements and can be used to determine the thickness of non-magnetic coatings applied to the surface of ferromagnetic products.

A known method for measuring the thickness of non-magnetic coatings is based on probing the ferromagnetic base with an alternating magnetic field and fixing the amplitude and phase of the applied voltage, and the frequency of the electromagnetic field is chosen proportional to the value of the electrical conductivity of the coating material.

However, the use of an alternating magnetic field in sounding determines the significant dependence of the measurement result on the surface roughness due to the effect of displacing the field into the surface layer and on changes in the electromagnetic parameters of the base material and the value of the electrical conductivity of the coating material.

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There is also known a method for controlling the thickness of coatings based on measuring the force of detachment of a permanent magnet from the surface of a controlled ferromagnetic product with a nonmagnetic coating applied to its surface.

The disadvantages of the ponderomotive method include the need for a smooth measurement of the force for the moment of magnet separation, as well as the influence of the magnetic properties of the base material, which requires calibration measurements on samples made of the same steel (in production conditions this is not always possible due to aging material, and consequently, changes in its characteristics, as well as due to the difficulty in accurately reproducing the magnetic parameters of the material of the product).

The closest to the proposed one (the technical essence is the magnetostatic control method. The magnetostatic method is used to control the quality of heat treatment of ferromagnetic materials and is as follows: the product is magnetized to saturation, then demagnetized by its current of opposite polarity, the value of this current is recorded , continue demagnetization to the values of the external field, greater coercive force of the material, remove the demagnetizing current, again demagnetize the product to zero induk The second time, the demagnetization current is measured again and the heat treatment is judged by the difference of the measured currents.

A disadvantage of the known method is the need to perform calibration tests before each measurement of the thickness of a nonmagnetic coating for materials with different coercive forces.

The aim of the invention is to expand the field of use by determining, in addition to the quality of heat treatment, the thickness of the non-magnetic coating applied to the ferromagnetic product.

The goal is achieved by the fact that the controlled product is magnetized to saturation with an electromagnetic converter, the applied field is reduced to zero, and then the product is affected by a field of opposite direction, the value of 1 degaussing current is measured at the instant that the induction of the product is equal to zero and the measured value is used in determining controlled parameter, additionally measure the value of p of the demagnetization current for a given induction value in

negative region, and the thickness of the nonmagnetic coating is determined from the ratio

6 A + B () + C () 2

where A, B, C are the constants of the electromagnetic transducer, which are determined by reversing the control samples once when the thickness of the nonmagnetic coating is changed.

The drawing shows the experimental dependence 5 f (A lp), where D1p I p Ipo.

The proposed method can be implemented. using any coercimeter with

external U-shaped electromagnetic transducer, for example KIFM-1,

The method is carried out as follows.

A coercimetric transducer is placed on the monitored surface, preliminary magnetic preparation is carried out, then they start to demagnetize with a current of opposite polarity, while the residual induction

control on the dial indicator integrated into the sensor of the fluxgate. Upon reaching zero induction, the magnitude of 1p0 demagnetization current is fixed, demagnetization is continued until

until the needle indicator of induction reaches a predetermined value of induction in the negative region, for example, 50 divisions along the. the scale of the registered device, on the current indicator note

the demagnetization current value p, the calculation of the differential current D1P and, substituting the difference obtained into an approximating square polynomial, calculate the thickness of the coating.

The results presented in the drawing were obtained on four materials with a coercive force in the range of 370–5370 A / m.

Claims (1)

Invention Formula The magnetostatic method of non-destructive quality control of ferromagnetic products, which means that the controlled product is magnetized to saturation with the help of an electromagnetic converter, changing the direction of the magnetizing current to the opposite and changing its value, reduce the applied field to zero, and then act on the product 5 by the field of the opposite direction, the magnitude of the demagnetization rotor is measured at the instant of zero induction in the product, and the measured value is used to determine the controlled parameter, characterized in that, in order to expand the field of use, by also determining the thickness of the non-magnetic coating on the ferromagnetic product, the magnitude of the demagnetization current p is also measured at a given induction value in the negative region, The thickness d of the non-magnetic coating is determined from the ratio 6 A + B (Ip-Ipo) + C (Ip-lpo) 2, where A, B, C are constants determined by the remagnetization of control samples with different non-magnetic coating thickness. S. mm ten srm