SU868545A1 - Method of magnetic noise structuroscopy of ferromagnetic articles - Google Patents

Description

(54) METHOD OF MAGNETIC AND SOUND STRUCTURE OF FERROMAGNETIC PRODUCT №1

Claims (2)

Hebregation refers to non-destructive testing and can be used to construct fusible products for the structuroscopy. There is a known method of magnetic-noise struroscopy of ferromagnetic products, concluded that the control product is perilagged with a low-frequency magnetic field, recorded using a measuring transducer noise B kgausen, and the quality of the test product 11 J is measured. The disadvantage of this method is the limited ability to control the subsurface of the product layer, which is closest to the technical essence, the method of magnetic noise-noise structuroscopy of ferromagnetic products, which consists in ohm that controlled product remagnetizing low frequency magnetic field through the article around zamykayuschims izmeritelyyugche transducer, the last recorded using Barkhausen noise and it is judged as a controllable product structure f2. However, this method does not effectively control the quality of the structure of the surface layers of the product. The purpose of the invention is to control the surface layers of the product. This goal is achieved by using a magnetic field rotating about the axis of the measuring transducer normal to the surface of the product. In addition, adjusting the depth of the monitored subsurface layer is possible by varying the magnitude of the magnetic field. Fig. I is an apparatus for carrying out the method; fig 2 is the same, top view. The device contains a magnetizing system I, including a four-pole magnetic circuit 2 with two compartments 3 and 4, each of whose sections is placed on a diametrically protruding pole of the magnetic circuit 2, and the sec- ond coils of each coil are interconnected with each other in a coherent, low-frequency generator 5 two quadrature voltages in each other, connected by a first output with a 3 k coil and a second output with a coil 4, and measuring transducer-gel 6 connected in series, established symmetrically with respect to Tel'nykh magnito1trovoda poles 2, the electronic unit 7 and the recorder 8. The method magnitoshumovoy strukturosko- FDI ferromagnetic articles is realized as follows. The generator 5 energizes the coil 3 and 4 the corresponding sections of which are shifted in space relative to each other by 00 and fed by a voltage shifted by 90. As a result, a low-frequency magnetic field is created rotating around the axis of the measuring transducer 6 and closing around the latter through the controlled product 9. The magnitude of the magnetic field is maximum on the surface of the product 9 and decreases as the depth of the subsurface is increased}; layers. A rotating magnetic field, the intensity of which is above a certain critical value, changes the direction of the magnetization of the Barkhausen non-jump domain. Therefore, in the surface layers of the sample, where a strong magnetic field is excited, only a gradual change in the direction of the magnetic induction and the magnetization without jumps occurs. Therefore, the processes in the surface layers of the sample by the transducer 6 are not recorded. In the deeper layers of the test article 9, where the tension of the rotating field is weaker, skip turns of the domains occur, due to which the magnetic field changes. This induces an emf in the measuring transducer 6. The larger the magnetizing current of coils 3 and 4, the deeper the strong rotating magnetic field penetrates the material, and it, starting from the surface to these layers, does not create an emf in the measuring transducer b. Thus, it is possible to control the quality of the subsurface layers of the product U, excluding the influence of its surface layers. The depth of the controlled layer is controlled by varying Hfflvf the magnitude of the generator current 5, which changes the intensity of the magnetic field. It can also be additionally regulated by varying the frequency of the generator 5. It is expedient to choose magnetized forces of the hairs 3 and 4 with some ratio different from unity, while the rotating field is ellipsoidal, the magnitude of the magnet noise is somewhat greater. The recorded transducers 6 are converted into an electronic block 7 and are recorded by the recorder 8. The described method allows Directly Monitoring the quality of the structure of the subsurface layers, with the help of a controlled layer of a controlled ferromagnetic product. 1. Claim 1. The method of magnetic-noise structural microscopy of ferromagnetic products, which consists in controlling the product by a remagnetization by a low-frequency magnetic field, closure through the product around the measuring transducer, is recorded using the last Barkhausen noise and in it. judge the quality of the structure of the controlled product, characterized in that, in order to control the subsurface layers of the product, use a magnetic field rotating about the axis of the measuring transducer, normal to the surface of the product. 2. The method according to claim 1, characterized in that, in order to regulate the depth of the controlled subsurface, the magnitude of the magnetic field strength is changed. Sources of information taken into account in the examination 1. US Patent No. 378337О, cl. G OIR 33/12, 1974. 2. USSR author's certificate N 461346, cl. G O1 M 27/86, 1975 (prototype).