SU842559A1 - Method of article eddy current flaw detection - Google Patents

Description

.1 The invention relates to a measuring technique and can be used for eddy current flaw detection of subsurface defects of products. There is a method of eddy current defoscopy, in which a capacitive gap converter is installed and rigidly connected to it, the signal of which is used to correct the signal of an inductive converter by changing the current of its exciting winding {I). The disadvantage of this method is the small zone of compensation of the effect of the gap and, consequently, the low accuracy of the control. Closest to the proposed method of eddy current flaw detection, in which an inductive bone converter is connected to the input of autogenerator meters, a defect is deducted from the base of the last equalizer, and a difference signal is detected. The disadvantage of this method is the low accuracy of detection of the defect, due to the different dependence of the transducers on the gap. The purpose of the invention is to improve the accuracy. The goal is achieved by using meters with inversely static characteristics, equalizing the signals by controlling the difference signal of negative polarity with the steepness of the static characteristic of the meter with a capacitive converter, multiplies the signal of this meter by a difference signal of a positive polarity and therefore the product finds a defect . FIG. Figure 1 shows the static characteristic of an autogenerator meter with a transducer connected to a schematic feedback circuit; in fig. 2 - the same, with the transducer included in the oscillating coitur; in fig. 3 shows a comparison of different-type signals of measuring oscillators in the absence and repetition of defect signals. The plot OA of FIG. 1 in the working zone of compensation of the gap h between the values of НЬЬ is quasilinear and has an exponential character, and the steepness of this curve decreases to the side; Nmin.

The portion of the article B of FIG. 2 in the working zone, the gap compensation is also quasilinear and has the form of an exponential characteristic with a decrease in the steepness in the direction of bc.

In the compensation zone, the output signals are proportional to the part1 of the static characteristics of the pA and the school, since the steepness of the initial part of the static characteristics depends on the quality factor of the autogenerator meters and the type of transducers, the TO, quasilinear characteristics of the OA and OV are linearized using adjustable voltage converters, driving them to OS and OD. These lines most often have a different slope.

The method is carried out following

in a way.

By providing in advance a higher sensitivity of the auto-oscillator gauge with a capacitive transducer, it is possible to equalize the slope of the direct OS and OD, reducing the steepness of the direct OS to the OE line. Equalization is performed by controlling the difference signal of the negative polarity uUc-Uc- - U of the slope of the static characteristic of the meter with a capacitive gap converter.

In the compensation zone, the signals of the eddy current sensor and the capacitive sensor, in the absence of a defect, compensate each other. The presence of a defect leads to an increase in the quality factor of an autogenerating meter with an inductive transducer and to the appearance of a difference signal of positive polarity D, and, u s The value of this signal depends inversely on the size of the gap. Therefore, the magnitude of the defect is determined by the product of the difference signal of a positive polarity and the signal of a meter with a capacitive transducer.

As a result of the use of the proposed invention, the generation of control accuracy, improvement of the performance characteristics of flaw detectors, as well as the elimination of spurious signals when developing products, is achieved.

Claims (2)

1. Author's certificate of the USSR 340954, cl. G 01 N 27/90, 1970. 2. Authors certificate of the USSR 578560, cl. G 01 B 7/06, 1974 0 (prototype) ... l Aww ./ about. .7  4idag t / f. hmicc AUi UrVff ul / r-Uc Uf (Pi / 2,3