SU538284A1 - The method of quality control of ferromagnetic materials and products from them - Google Patents

Description

(54) METHOD OF CONTROL OF QUALITY OF FERROMAGNETIC MATERIALS AND PRODUCTS WITH THEIR RISE and rise in price with simultaneous decrease in reliability of control. The purpose of the invention is to improve noise immunity. This is achieved by the fact that, according to the proposed method, Barkhausen jumps are grouped into high-frequency bursts, and the magnetic noise power measurement is performed at twice or multiple of double frequency at high frequency. In addition, Barkhausen jumps are grouped by a high-frequency field, perpendicular to the magnetization reversal field, and the grouping frequency is chosen in the interval between the remagnetization frequency and the upper boundary frequency of the magnetic noise spectrum. FIG. 1 illustrates the principle of grouping Barkgausen jumps in batches; FIG. 2 shows a block diagram of a device implementing the described method; FIG. 1, fl shows a product magnetization curve 1, a product magnetization curve 2 when a constant transverse field is applied with a value of H, and a magnetization curve 3 that magnetizes chasing (indicated by arrows) under the simultaneous effect of a magnetizing and transverse field of a high frequency grouping H N 51-pi) The slope (speed) of the change in the magnetizing h is the frequency of the transverse field, w, the full FIELD grouping, lu p-cycle frequency grouping. The T-period & Billing of Barkhausen jumps, the Pop & A river grouping field is obtained by passing a current of frequency f pp through the product. The change in the transverse grouping field and the magnetization field in time corresponds to graphs 4 and 5 in FIG. Time B (i) is shown in FIGS. 1, 6 Curve 6 is obtained when only a magnetizing field is applied to the product, and Curve 7 with the simultaneous action of both fields, 1Bark FIGS, 1 and 2 show the process of forming Barkgauze bursts in succession. The oscillogram 8 corresponds to the zero grouping field. Oscillograms 9 and 10 display a sequential increase in the amplitude H. It can be seen that at a certain amplitude the flow of Barkhausen jumps turns into a deterministic signal (oscillogram 10). The frequency of jumps is twice the frequency of the grouping field. The largest magnetic noise power is thus concentrated at a frequency of 2 f ,, Therefore, it is most expedient to measure the noise power at that frequency. The block diagram of the device that implements the described method (FIG. 2) contains a probe 1 with a magnetizing coil and a measuring coil that converts Barkhausen jumps into pulses e, d, c ,, controlled product 2, voltage generator 3 with frequency f p to create transverse field grouping, amplifier 4, band-pass filter 5, tuned to a frequency of 2f.yp d & tector 6, low-pass filter 7, measuring device 8 (quadratic voltmeter) for measuring magnetic noise power, Writable method allows to increase noise immunity and simplify its implementation. 1, a method for controlling the quality of ferromagnetic materials and products made of them, which means that the controlled product is re-magnetized by an alternating magnetic field, Barkgausen jumps are recorded, the power of magnetic noise is measured at various values x of the magnetization reversal field and compare the measured values with the corresponding signal values from the standard, characterized in that, in order to increase the noise immunity, the Barkgausen jumps are grouped into high frequency bursts, Magnetic noise is produced at twice the frequency or twice the frequency of the high frequency field, 2, Method according to claim 1, characterized in that the Barkhausen jumps are grouped by a high frequency field, perpendicularly perpendicular to the magnetic field, Vania, 3, , 1 and 2, which is also distinguished by the fact that the frequency of the grouping is chosen in the interval between the frequency of the first & magnetization and the upper boundary frequency of the magnetic noise spectrum. Sources of information taken into account during the examination: 1, Copyright certificate № 461346, cl, Q 01 N 27/86, 24.04,72 g, 2, GDR patent No. 71635, cl, 42 By 46/06, 1968

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