RU1786418C - Magnetizer for magnetic-tape testing - Google Patents

Abstract

The invention relates to the field of non-destructive testing and can be used for magnetographic inspection of welded joints. The purpose of the invention is to increase the sensitivity of weld inspection. This goal is achieved due to the fact that in a device containing an electromagnet mounted on wheels with a U-shaped core, the poles of which have openings in the middle part, the height of the openings is made in the range (0.5 ... 1.0) h, where h - the height of the pole of the electromagnet. 2 ill.

Description

The invention relates to defectoscopy by a magnetographic method and can be used to control the quality of long welds in various industries, The invention can mainly be used to control welds made by automatic submerged arc welding, oil and gas pipelines, tanks, reservoirs for pores, slag inclusions, as well as transverse cracks.

A magnetizing device for magnetographic flaw detection is known, which comprises a U-shaped electromagnet mounted on wheels with the possibility of moving in a direction perpendicular to the field to be created.

The disadvantage of this device is the low sensitivity of the magnetographic inspection of the seams for pores and slag inclusions.

The closest technical solution to the invention is a magnetizing device for magnetic flaw detection, comprising a U-shaped electromagnet mounted on wheels with the ability to move in the direction of the floor being created, the poles of which have openings in the middle part of the openings.

A disadvantage of such a device is the low sensitivity of the inspection of extended seams for the presence of round defects and cracks located across the seam when magnetizing the control zone by continuously moving the magnetizing device along the seam, which is due to the following. When a magnetizing device with a small height of openings in the poles is moved along the seam, the magnetic tape and the weld are subjected to almost perpendicular magnetization, which leads to the formation of a significant background of interference from surface irregularities, the amplitude of which can exceed several times

(L

WITH

J s

 about

and

oo

the amplitude of the useful signal (Zholnerovich OA and Chait A.D., Efficiency of using magnetographic methods of defectoscopy. M .: BelNIINTI, 1978). Therefore, the signal-to-noise amplitude ratio can be small.

The aim of the invention is to increase the sensitivity of the inspected long seams for the presence of round defects, as well as cracks located across the seam, by increasing the signal-to-noise amplitude ratio.

This goal is achieved in that in a magnetizing device for magnetographic inspection, containing mounted on wheels with the ability to move in the direction of the created floor electromagnet with a U-shaped core, the poles of which have openings in the middle part, the height of the openings is made within (0.5., , 1) h, where h is the height of the pole.

Figure 1 schematically shows a magnetizing device mounted on a controlled product, front view; figure 2 is the same side view.

The magnetizing device comprises a U-shaped core 1 (Fig. 1) equipped with a coil 2, wheels 3, by means of which the device rests on the product 4, the poles of the device have an opening. The width of the opening eliminates the contact of the bead seam 5 (figure 2) and magnetic tape 6, pressed foam pad 7 to the surface of the weld.

The device operates as follows.

A magnetic tape 6 is placed on the surface of the seam 5. The device is mounted on the surface of the article so that the opening is symmetrical with respect to the seam bead, and a foam pad presses the tape against the seam being monitored. Turn on the current in the coil of the magnetizing device and the device is moved along the weld.

When using the proposed magnetizing device due to the large height of the openings in the poles, the main magnetic flux enters the product through the heat-affected zone. Due to the high magnetic resistance, the magnitude of the magnetic flux into the seam through the openings in the poles is small. The weld is magnetized mainly due to the spreading of magnetic flux in the product. When the magnetizing device is moved, the weld is magnetized along its entire length. In that

In the case of the signal-to-noise ratio, The lower and upper limits of the opening height are selected based on the possibility of obtaining on the signalogram the signal-to-noise amplitude ratio of at least 2 at

minimum and maximum opening height. If the height is equal to h, then the use of such a device is similar to the use of two U-shaped magnetizing devices moving along the seam in the heat-affected zones.

The use of the proposed magnetizing device for magnetographic flaw detection in comparison with the known one will make it possible to increase the sensitivity of the control of extended joints by 3-4 times.

Claims (1)

SUMMARY OF THE INVENTION A magnetizing device for magnetographic defectoscopy, comprising a U-shaped electromagnet mounted on wheels and having poles in the middle part of the openings, characterized in that, in order to increase the sensitivity of the inspection of welds, the height of the openings is made within (0.5. ..1,0) h, where h is the height of the pole of the electromagnet. Fig. 1