RU2548384C1 - Method to adjust eddy-current flaw detector - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: invention relates to measurement equipment, specifically, to nondestructive check methods. Hodographs are taken on impact of a gap between a converter and an object of control at a signal in a defect-free area of an adjustment sample, and in the area of this sample with a calibraing defect of available value. Hodographs are represented on the complex plane of introduced voltages (U_int) and Re (U_int). Curve 1 - hodograph of gap impact above the defect-free area of the adjustment sample. The point A corresponds to the position of the converter directly on the adjustment sample, and the point H - at the distance, where impact of the adjustment sample may be neglected. Curve 2 - hodograph of gap impact in the area of the adjustment sample with calibating defect of available value. The hodograph of gap impact at a signal in the defect-free section of the control object is taken, shown by the curve 3. If between directions of hodographs 1 and 3 the angle is Φ, then they change the phase of excitation current by this angle Φ so that hodographs of gas impact in defect-free areas of the adjustment sample and control object match, and then they perform control of the object.

EFFECT: invention makes it possible to increase accuracy of defect parameters detection.

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Description

The invention relates to measuring technique, in particular to non-destructive testing methods, and can be used, for example, for flaw detection by the eddy current method.

Known methods for adjusting the eddy current flaw detector, when tuning is performed on a tuning sample with a defect of known magnitude, is transferred to the test object and the signals at the test object are used to judge the magnitude of the defect (Gerasimov V.G., Pokrovsky A.D., Sukhorukov V.V. Nondestructive control: Practical Handbook, Book 3. Electromagnetic control. M., Higher School, 1992, 312 pp.).

The disadvantage of this method is the low accuracy of determining the defect parameters due to the influence of changes in the properties of the control object on the control result.

The closest in technical essence is the method of tuning the flaw detector, which consists in the fact that the flaw detector is pre-calibrated on a tuning sample with a defect of known size, transferred to the control object and compensates for the difference between the signals on the defect-free sections of the sample and the control object and after that the object is monitored (Non-Destructive control: Reference book: In 7 vol. Under the general editorship of VV Klyuyev: In 2 books, book 2, Eddy current control - M .: Engineering, 2003, 688 p.).

The disadvantage of this method is the low accuracy of determining the parameters of the defect due to the interfering effect of changes in the gap on the magnitude of the signal from the defect.

The technical result of the method is to increase the accuracy of determining the parameters of defects.

This result is achieved by the fact that in the known method, the flaw detector is pre-calibrated when the clearance on the tuning sample with a defect of known size is changed, they are transferred to the control object and compensate for the difference between the signals in the defect-free sections of the sample and the control object and control the object, hodographs of the influence of the gap on defect-free section and on the section with a defect of known magnitude on the adjustment sample, take the hodograph of the influence of the gap on the defect-free section of the control object, change the phase then and excitation so that the gap hodographs influence on defect-free parts of the sample and the object coincided

The essence of the eddy current flaw detector setup method is illustrated by the drawing, which shows the hodographs of the eddy current transducer signal from the gap, for a section without a defect (curve 1) and with a defect (curve 2) before the phase rotation, and also after the phase rotation, respectively (curve 1 ′) for the section without defect and (curve 2 ′) for the defective area.

The method of tuning an eddy current flaw detector is as follows.

The hodographs of the influence of the gap between the converter and the test object on the signal on the defect-free portion of the tuning sample and on the portion of this sample with a calibration defect of known magnitude are taken. Hodographs are presented on the complex plane of the introduced stresses Im (U _int ) and Re (U _int ). Curve 1 is the hodograph of the influence of the gap over the defect-free section of the tuning sample. Point A corresponds to the position of the converter directly on the training sample, and point H - at a distance where the influence of the training sample can be neglected. Curve 2 is the hodograph of the influence of the gap on the site of the tuning sample with a calibration defect of known magnitude.

The hodograph of the influence of the gap on the signal on the defect-free section of the test object is shown, shown by curve 3. If the angle between the directions of the hodographs 1 and 3 is Φ, then the phase of the excitation current is changed by this angle угол so that the hodographs of the influence of the gap on the defect-free sections of the tuning sample and object control coincided and then carry out control of the object.

In this case, the hodographs 1 ′ and 2 ′ of the influence of the gap, respectively, on the defect-free section and the section containing the calibration defect, after phase rotation, and curves 1 ′ and 3 coincide. If a signal corresponding to point F was received during object control, then the defect value will be determined as the ratio of the length of the FC segment corresponding to the defect in the test object to the length of the DC segment corresponding to the calibration defect of the adjustment sample.

Using the method allows to increase the accuracy of determining the parameters of the defect by reducing the interfering effect of changes in the gap on the signal from the defect. This is ensured by the fact that the rotation of the phase ensures the position of the hodograph corresponding to the control object, the same as the hodograph corresponding to the tuning pattern. As a result, the magnitude of the defect is determined using the parameters of the calibration defect.

Claims (1)

A method of tuning an eddy current flaw detector, which consists in the fact that the flaw detector is pre-calibrated when the gap on the tuning sample with a defect of known size is changed, they are transferred to the control object and compensate for the difference between the signals on the defect-free sections of the sample and the control object and control the object, which is different before remove the hodographs of the influence of the gap in the defect-free section and in the section with a defect of known magnitude in the tuning sample, remove the hodographs of the influence of the gap in the defect-free section e of the control object, they change the phase of the excitation current so that the hodographs of the influence of the gap on the defect-free sections of the sample and the object coincide.

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