SU1379714A1 - Device for checking elastic and plastic strains of ferromagnetics - Google Patents

Abstract

The invention relates to the field of destructive testing of materials and products and can be used to determine the degree of elastic deformation of pipelines of gas transportation systems. The aim of the invention is to increase the reliability of control by using the modulatory principle of signal transmission and processing. The high and low frequency generators 1 and 2 produce a modulated signal to the magnetic induction converters 4 and 15. When they are unbalanced, the information signal after amplification is detected by detector 7, where the low-frequency component of the signal is extracted, and fed to the detector filter 9 and high-pass filter 10 to high-frequency harmonics, the voltage of which is converted into direct current by the detector 1I, which characterizes the magnitude of the deformation and Indicated with indicator 13. 1 c.p. f-ly, 4 ill. (L

Description

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The invention relates to the field of non-destructive testing of materials and products and can be used to determine the degree of deformation of pipelines of gas transmission systems.

The aim of the invention is to increase the reliability of control through the use of the modulator principle of signal transmission and processing.

Figure 1 shows the structural diagram of the proposed device, the first option; figure 2 - the same, the second option; on fig.Z and 4 - magnetic permeability converter, variants.

The device contains generators of high 1 and low 2 frequencies, modulator 3, the inputs of which are connected to generators of high 1 and low 2 frequencies, connected in series by a magnetic permeability converter 4, differential bridge 5, to the second input of which the output of the modulator 3 is connected , unbalance amplifier 6, detector 7, intermediate amplifier 8, detector filter 9, high frequency filter 10, detector 11, amplifier 12 and indicator 13, The device also contains a switch 14 and n magnetic permeability converters 15 connected the third input of differential bridge 5 through the switch 14.

The device according to the second variant contains high 17 and low 18 frequency generators, a modulator 19, to the input of which high 17 and low 18 generators are connected, two magnetic permeability converters 20 and 21, and a differential bridge 22, to which magnetic converters 20 and 21 are connected permeability and modulator output 19, and unbalance amplifier 23 connected in series, detector 24, intermediate amplifier 25, detector filter 26, high frequency filter 27 detector 28, amplifier 29, and indicator 30.

The magnetic permeability converter (FIG. 3) is made in the form of a housing 31, on which magnetic clamps 32 are mounted. In the housing 31 a magnetic circuit 33 of circular shape with a U-shaped cross-section is installed, on the central core of which a winding 34 is horizontally placed.

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35

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The magnetic core 33 closes the dielectric elastic strip 35.

The converter (figure 4) includes a housing 36 on which magnetic clamps 37 are installed, a split-pole magnetic circuit 38 installed in the housing 36, a winding 39 wound around the magnetic conductor 38, a short-circuited coil 40 located at the end of the magnetic circuit 38, and a dielectric elastic gasket 16, which closes the magnetic circuit 38 below.

The device works as follows.

The transducers 15 are installed on a test piece (not shown). Signals from high-I and low-2 generators are fed to modulator 3, and then the modulated signal is fed to differential bridge 5, the second and third inputs of which receive an information signal. In the case of differences in the levels of elastoplastic deformations, the unbalance signal appears at the output of differential bridge 5, amplified by unbalance amplifier 6, and detected by detector 7, separating the low-frequency component of the signal. After amplification in the intermediate amplifier 8, the signal is picked up by the high-harmonics detector filter 9 and high-frequency filter 10. The resulting signal is converted by the detector 11 into a DC voltage, which is detected by the indicator 13, calibrated in units of the stress-strain state. To control materials of different brands, amplifier 12 has several gain gradations.

Claims (2)

1. A device for monitoring the elastoplastic deformations of ferromagnetic materials, comprising a low-frequency generator, a magnetic permeability converter, an unbalance amplifier and detector in series, and a series-connected amplifier and indicator, characterized in that it is equipped with a high-frequency generator connected in series, a modulator, to the second input of which a low-frequency generator is connected, and a differential bridge, to the second input of which is connected n the magnetic permeability converter, and the output is connected to the unbalance amplifier input, a second magnetic permeability converter connected to the third input of the differential bridge, and connected in series by an intermediate amplifier connected to the output of the detector, a detector filter, a high-frequency filter and a second detector, the output of which connected to an amplifier. 2. The device according to claim 1, about tl and - the fact that, in order to improve performance by expanding the control zone, the device is equipped with magnetic permeability converters and an m + I input switch connected between magnetic permeability converters and differential by the bridge. cpuz.i J7 srig.Z