SU1298624A1 - Device for simulating magnetic leakage flux in electromagnetic flaw detection - Google Patents

Abstract

The invention relates to non-destructive testing and can be used to simulate the magnetic fluxes of the dispersion of integrity defects in electromagnetic testing. The aim of the invention is to enhance the functionality by simulating subsurface cracks. Imitation of subsurface cracks is achieved due to the fact that the device is equipped with a ferromagnetic specimen, geometrically similar in the area of electromagnetic interaction, is cracked by a controlled object and made of the same material, a voltmeter 10 and a measuring coil 7 connected to a voltmeter. In the sample, the channels that emerge on the sample surface and form a continuous channel that encloses the simulated crack are melted. The conductor forming an electrically closed circuit with the current source 8 is laid in the through channel and forms a current coil 6 enclosing the simulated crack. The measuring coil is made similarly to the current, and the current source is made with the possibility of adjusting the amplitude and phase of the current feeding the coil. The current in the current coil 6 is set using the amplitude-phase regulator 9 so that the voltmeter (L ND D 00 O5 1C 4

Description

1298624

10 showed zero. This corresponds barely to this magnetizing system to the equality of magnetic fluxes, the magnetizations are removed, and the resulting flows of scouring and current coil 6 through the seams correspond to the simulated surface of the simulated crack in terms of magnitude and distribution. .il

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The invention relates to instrumentation technology and can be used in the design and configuration of electromagnetic flaw detection tools as a simulator of defects in ferromagnetic media.

The purpose of the invention is to enhance the functionality by simulating subsurface cracks.

The drawing shows a block diagram of the device.

The device contains a ferromagnetic sample 1 with channels 2-5 made therein, emerging on the surface of the ferromagnetic sample 1 and forming a through canal equivalent to the simulated crack, a current coil 6 and a measuring coil 7, successively connected current source 8 and amplitude phase regulator 9, connected to coil 6 .. and voltmeter 10 connected to coil 7.

A device for simulating magnetic flux scattering under electromagnetic flaw detection works as follows.

The ferromagnetic sample 1 is magnetized using a magnetization system (not shown) fed from an alternating current source 8 through a power amplifier (not shown). At the same time, the magnetization system creates a magnetic flux coupled to its part with coils 6 and 7 covering the simulated crack. Under the action of a magnetized crack, the magnetic flux must be redistributed. This redistribution is due to the fact that there is no ferromagnet with microcurrents circulating in the volume of a continuity defect. In sample 1 there is no defect, but a similar effect is achieved by using a current coil 6 that compensates for its magnetic field

the action of microcurrents in its volume. The magnitude of the current in the coil 6 is controlled by the amplitude-phase regulator 9 and is set so that the magnetic flux generated by this coil and the magnetization system across the surface of the simulated crack is compensated. When a compensation is achieved, a voltmeter 10 connected to the measuring coil 7 indicates zero. Thus, the scattering fluxes created by the current coil 6 over the ferromagnetic sample 1 correspond to the simulated not only in distribution, but also in magnitude.

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If it is necessary to study the magnetic fluxes of scattering, caused exclusively by the action of a continuity defect, the magnetization system is switched off and removed from the ferromagnetic sample.

Claims (1)

Invention Formula thirty A device for simulating magnetic fluxes of electromagnetic flaw detection, containing a ferromagnetic sample, a voltmeter, an amplitude-phase regulator connected in series with a current source and a two-wire line that electrically closed with the current source 35 circuit, characterized in that, in order to expand its functionality by simulating subsurface cracks, it is equipped with a measuring coil connected to a voltmeter, the sample is swept out with channels extending to its surface and forming a through channel, equivalent to the volume of a simulated crack, two-wire line laid in  through channel and forms a current coil, covering the simulated 312986244 the crack, the measuring coil of the wire are made with the possibility of adjustment similarly to the current, and the source amplitude and phase of the current. Compiled by I.Keso N. Editor M.Blanar Tehred M.Hodanich Corrector M.Sharoshi Order 881/45 Circulation 777 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 4/5, Moscow, Zh-35, Raushsk nab. 113035 Production and printing company, Uzhgorod, st. Design, 3