SU1295317A1 - Method of checking elongated ferromagnetic articles - Google Patents

Abstract

This invention relates to non-destructive control methods. The purpose of the invention is to increase the reliability of the control; ements 2 from uniform. With this arrangement of the sensing elements 2, the total output characteristic of the multi-element converter is more uniform and the output signal is practically independent of the location of the defect in the controlled product 3. 1 sludge. i / (L s:

Description

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The invention relates to the field of non-destructive testing methods and can be used to convert the magnetic fields of the scattering of defects of ferrimagnetic products of round shape (steel ropes, rods, pipes, etc.).

The purpose of the invention is to increase the reliability of control by ensuring uniform sensitivity to defects regardless of their location in the product being tested. The drawing shows a multi-element transducer for implementing the method.

The multi-element transducer contains a detachable body 1 and n sensitive elements 2, which are designed to be placed with equal pitch along the contour of the tested article 3. The non-sensitive elements are a multi-element transducer. Each sensitive element is made, for example, in the form of exciting and measuring windings (not shown),

The method is carried out as follows.

The multi-element NSP converter and sensitive elements 2 are placed along the sectional contour of the tested article 3 with equal step t, determined from the ratio

t 5.41 + 0.421 + 0.07e - - 0.0076,

where is the deviation of the output characteristics of the multi-element converter from the uniform one. This ratio is true for 1% 6 6 9%.

For example, at 1.2% t 6 cm, and at 8.4% t 10 cm.

The number n of sensitive elements 2 is determined by the diameter of the tested product 3, the size of the allowable gap between the surface of the product 3 and the multi-element transducer and the step t of the location of the elements, determined by the above dependency.

B P --.

L (-2 + &) 2lt,

d is the diameter of the controlled product;

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five

five

five

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0

0

five

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S is the distance between the product surface and the multi-element transducer. Using connecting wires, the field windings of the multi-element converter, connected in series, are connected to the field source, and the measuring windings are connected to the amplifier-converter unit (not shown). Product 3 moves at a constant speed. When moving, the product 3 is magnetized in the longitudinal direction, and in places of defects an external magnetic field appears, which is converted by the sensitive elements 2 of the multi-element transducer into a proportional electrical signal. This signal is converted and amplified by an amplifier / converter unit and recorded with an indicator (not shown).

The sensitivity characteristic of a separate sensor element 2 has a maximum when the defect is located above the center of the converter and decreases when the defect is removed from the converter (curve 4).

Since a defect may occur at various points in the cross section of the moving article 3, the output signal of the transducer varies, and therefore, the accuracy of the measurement depends on the position of the defect relative to the transducer.

With an optimal arrangement of n sensitive elements with step t, the total output characteristic of the multi-element transducer (curve 5) is more uniform and the output signal of the transducer is practically independent of the location of the defect.

Claims (1)

Invention Formula The method of controlling extended ferromagnetic products, which consists in that the contour of the controlled product is placed with equal p step and sensitive elements, and the signals of the latter determine the presence of defects in the product, characterized in that, in order to increase the reliability of control, 12553174 The structural elements are placed with a step, where g is the deviation of the output character t, determined from the ratio of the sensitivity of the totality of senses 5.41 + 0.421E + 0.07 + body elements from equal to + 0.0076 dimensional.