SU634188A1 - Transducer for magnetic noise structuroscopy - Google Patents

Claims (2)

The invention relates to means of electromagnetic structuroscopy and can be used to control the quality of materials and products. A converter for magnetic noise restructuroscopy is known, containing a U-shaped matt conduit, which includes a winding and a loading indicator coil located between the poles of the magnetic circuit 1. However, the reliability of the structuroscopy of this device is insufficient, since the signal of the indicator coil is ambiguous with anisotropic structures of materials. The closest to the invention to the technical essence is a transducer for magnetic noise restructurography, containing a U-shaped magnetic circuit, wrapping its winding and an overhead indicator coil symmetrically located between the poles of the magnetic circuit, the plane of the turns of which is parallel to the polarization plane of the magnetic circuit pole 2. double the frequency relative to the frequency of the reversal} 1 and the controlled object. However, the reliability of structuroscopy by this Transducer is also insufficient, since crystal structures with orthogonal magnetic axes do not fully interact with the indicator coil. The aim of the invention is to increase the reliability of structuroscopy. For this, the converter is equipped with a piezoelectric sensor mounted inside the indicator coil, and soundproofing pads attached to the poles of the magnetic conductors. The drawing shows the Converter, o & th view. The converter contains a U-shaped magnetic circuit 1, on which its winding 2 is located. Between the magnetic poles, an overhead indicator coil 3 is located symmetrically adjacent to the surface of the coaxial sample 4. The plane of its coils is parallel to the plane of the magnetic poles. Inside the indicator coil 3, a piezoelectric sensor 5 is mounted. At the poles of the magnetic conductor, sound-insulating gf-clips 6 are reinforced. The converter operates as follows. When the current flow of low frequency on the winding 2, cyclic magnetization reversal of the portion of the test sample 4, concluded between the magnetic poles, occurs. The Barkhausen noise (magnetic noise) arising from this in the material structure creates signals in the indatorial column, the parameters of which are correlated with the features of this structure. When the material is magnetized due to magnetostrictive phenomena, its structure simultaneously produces acoustic noise, which is converted by a piezoelectric sensor into corresponding signals that characterize the quality of the structure. By applying the signals of the indicator coil and the piezoelectric sensor to coincidence or coincidence circuits (not shown in the drawing), more complete information is obtained about the quality of the structure, especially for crystal structures with orthogonal magnetic axes. The indicator coil interacts with the latter only partially. Sound-absorbing strips 6 exclude acoustic interference from the magnetic circuit, which increases the reliability of sensor 5 signals. Claims of the Inverter for magnetic noise-free optical structures, containing a U-shaped magnetic circuit, covering its winding and surface indicator coil located symmetrically between the poles of the guide magnet, the plane of the coils of which napajt is a celled magnetic field, characterized in that, in order to increase the reliability of the structuroscopy, it is equipped with a piezoelectric sensor installed inside the indicator coil, and soundproofing pads attached to the poles of the magnetic circuit. Sources of information taken into account in the examination: 1. USSR author's certificate number 461346, cl. G 01 N 27/86, 1972. 2. USSR author's certificate number 532803, cl. G 01 N 27/86, 1975.