SU1506346A1 - Method of magnetographic inspection of butt welds - Google Patents

Abstract

The invention relates to magnetic tape detection and can be used in the control of welded joints of ferromagnetic materials. The aim of the invention is to increase the reliability of control of butt welded joints. This object is achieved by the fact that when the polarity signal when reading magnetogram a portion corresponding to the edges of the seam compound gain, the control is carried out repeatedly, creating a magnetizing field strength at the edges of the seam zone gain in the plane of symmetry, equal _to 0.2H ≤N _еN ≤0.4N _с , where Н _с - coercive force of the material 3 Il.

Description

The invention relates to the non-destructive testing of welded joints by the magnethographic method of flaw detection and can be used to control the quality of products made of ferromagnetic materials.

The purpose of the invention is to increase the reliability of control by selecting the magnetization mode when re-checking the places corresponding to the edges of the reinforcement seam.

FIG. 1 shows a plot of the amplitude of a signal due to a defect and a seam roller, versus a magnetizing field H; in fig. 2 and

3 - topography of the floor H-i on top of p

adjacent to the edges of the seam, respectively, without a defect and with a defect.

The method is carried out as follows.

Initially welded joint with a tape tightly pressed to the surface of the seam

magnetized by a constant field with the recommended magnetization modes, creating a magnetization in a controlled cross section that is close to the saturation magnetization. When reading a tape recording, reliable information is obtained on surface defects and internal defects of up to 40-50%, the dispersion field of which does not coincide with the edges of the reinforcement seam.

If the defect (internal or external) creates a dissipation field that coincides with the edge of the weld reinforcement, or the weld has a continuity defect of more than 50% of thickness, then this changes the polarity of the electrical signal corresponding to the edges of the weld reinforcement (Fig. 2 and 3), In this case, the information signal is composed of signals due to the seam roller and the defect, in order to obtain reliable information about the defect against the background of interference caused by the wave

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the joint is re-magnetized by the welded joint with a demagnetized tape tightly pressed to its surface, creating a tension on the surface of the joint in the area of the edges of the joint reinforcement 0.2 0.4 Hj., where Hj is the coercive force of the magnetic tape. At the same time, the magnetic recording contrast on the tape, caused by the seam roller, is equal to or close to zero, since the magnetic tape is magnetized in the initial magnetization region or in the Rele region of its main magnetization curve. At the same time, the defect field in this magnetization mode is significant. The dependence of the amplitude of the signal, due to the seam roller, at the edges of the seam and the amplitude of the signal caused by the defect, on the magnetization mode is shown in FIG. 1. A defect of 80% of the thickness is clearly detectable in weak fields, while signals due to the seam bar are absent in weak fields (curves 1 and 2, respectively).

The application of the proposed method will allow to increase the reliability of control of large defects such as discontinuity, including end-to-end, due to deviations of welding

Q 5 20 25

6346

border near the edges, and also in the seam.

weld seam with symmetric plane

Claims (1)

Invention Formula The method of magnetographic control of butt welded joints, namely, that a controlled weld, including a weld with reinforcement, is magnetized to a magnetization close to saturation magnetization, transfers the magnetic relief of the surface of the welded joint to the magnetic carrier in contact with the weld surface during magnetization and read information from a magnetic carrier, characterized in that, in order to increase the reliability of the control, when reading information, The change in the polarity of the electric signal in the places corresponding to the edges of the amplification is repeated in these places and monitored on a magnetic carrier, while the intensity of the magnetization field in the region of the edges of the amplification is chosen within 0.2 N i H i}, where H J. - coercive force of the magnetic carrier. GO N.Y./m dHinId 2 Fig.z