SU1228002A1 - Method of eddy-current structuroscopy of ferromagnetic articles - Google Patents

Abstract

The invention relates to the non-destructive testing of electrically conductive products using the eddy current method and can be used, for example. at the control of structuroscopy with through converters of heat treatment of steel products. The purpose of the invention is to increase the accuracy of the control results. The method consists in that the control sample and the product under test are brought into interaction with compensation and measuring transducers, excite eddy currents in them and n5 the highest harmonic components of the signals judge the quality of the product. A new method is that, in a compensation converter, the magnetic induction is changed according to a sinusoidal law, a temporary change in the magnetic field strength in the compensation converter is detected, and the shape of the temporary change in the magnetic field intensity in the measuring converter is identical to the form of the temporary change in the compensation magnetic field. converter. 2 yl. S (lb9

Description

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The invention relates to non-destructive testing and can be used, for example, in controlling the structure of ferromagnetic products.

The purpose of the invention is to improve the accuracy of eddy current structuroscopy of ferromagnetic products by increasing the accuracy of incrementing the higher harmonic components of the signal of the measuring transducer.

FIG. Shows time dependences, illustrating the proposed method; 2 is a block diagram of a device for implementing the method.

Curves 1 and 2 correspond to the magnetization curves of the control sample and the product under test, respectively, 3 are the specified time variation of the magnetic induction in the compensation transducer, 4 is the time change of the magnetic field strength in the compensatory transducer, 5 is the time change of the magnetic field induction in the measurement transducer.

A device for implementing the method (FIG. 2) contains a sinusoidal voltage generator 6, a parametric compensation converter 7, a resistor 8, a current amplifier 9, a transformer measuring converter 10, a block 11 for extracting and analyzing the harmonic components of the signal

A sinusoidal voltage from the output of the generator 6 is fed to the compensation converter 7 and a resistor 8. The voltage of the resistor 8 is fed to the input of current amplifier 9, to the output of which the measuring converter 10 is connected, the measuring winding of which is connected to the section 11 of analyzing and harmonic components of the signal .

The method is implemented as follows.

A sinusoidal voltage at the output of the generator 6 provides a sinusoidal change in the magnetic induction in the compensating converter 7. The temporary change in the magnetic field strength in the converter 7 coincides with the temporary change in the voltage on the resistor 8, which is fed to the input of the current amplifier 9. This provides a temporary change in the intensity of the magnetic field in the measuring transducer 10, identical to the form of the time measurement.

12280022

conversion in converter 7, about quality

the products are judged by the indications of block 11 for the allocation and analysis of the harmonic components of the signal representing. for example, a set of filters and thresholds recording devices.

In the case of the identity of the properties of the control sample and the test product, curves 1 and 2 coincide. The temporal variation of the magnetic field strength in the compensation and measurement transducers 7 and 10 is the same. falls with dependence A, and temporal J5 change of magnetic induction in the measuring transducer - with dependence 5. If the measuring transducer is transformed, then the spectrum of the output voltage of its measuring winding can be determined by decomposing the Fourier time series 3. It will contain only the first harmonic, therefore achieved a complete compensation of higher harmonic components.

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If the properties of the test sample and the test product do not match, the temporal change in the magnetic induction in the transmitter converges with dependence 5. The output voltage spectrum of the measuring winding of the transmitter is determined by the Fourier series of the differentiated time dependence 5 and contains odd harmonic components. Moreover, their values, according to which the quality of the product is judged, are determined by the difference of curves 1 and 2 and, consequently, by the difference in the properties of the control sample and the test product.

Claims (1)

Invention Formula A method of eddy current strucroscopy of ferromagnetic products, which consists in introducing a control sample and a test article into interaction with a compensating and measuring transducer, excites eddy currents in them and judging by the highest harmonic components of the signals that in order to increase the accuracy, in the compensation converter, the magnetic induction is modified by sinusoidal If the properties of the test sample and the test product do not match, the temporal change in the magnetic induction in the transmitter converges with dependence 5. The output voltage spectrum of the measuring winding of the transmitter is determined by the Fourier series of the differentiated time dependence 5 and contains odd harmonic components. Moreover, their values, according to which the quality of the product is judged, are determined by the difference of curves 1 and 2 and, consequently, by the difference in the properties of the control sample and the test product. Invention Formula A method of eddy current strucroscopy of ferromagnetic products, which consists in introducing a control sample and a test article into interaction with a compensating and measuring transducer, excites eddy currents in them and judging by the highest harmonic components of the signals that in order to increase the accuracy, in the compensation converter, the magnetic induction is modified by sinusoidal According to the law, a temporary change in the magnetic field intensity in the compensating converter is detected and the shape of the temporary change in the magnetic field intensity in the measuring converter is set to be identical to the form of the temporary change in the compensation converter. figure 1 P iff Compiled by I.Keso and Editor V.Kovtun Tehred I.Popovich Proofreader A.Ferents Order 2282/44 Circulation 778 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 , Production and Polygraphic Enterprise, Uzhgorod, Projecto st., 4.