KR100960895B1 - Analysis Method of Eddy Current Testing Data - Google Patents

Abstract

In order to enable anyone to easily and accurately analyze the measured data, eddy current inspection on standard specimens is carried out to generate LISA-driven and strip charts of normal data and input them as X- and Y-axis coordinate values, and eddy currents for the test specimen. Perform a flaw test to generate the LissaCylindrogram and strip chart of the measured data and input them as X-axis and Y-axis coordinate values. And synthesize the data to erase or add the LISA plot and strip chart of the test sample measurement data and the LISA plot and strip chart components of the standard specimen measurement data to analyze the signal components of the newly formed LISA plot and strip chart. Eddy current inspection including process for judging material change It provides data analysis.

Eddy current, flaw detection, non-destructive, Lissajous, strip chart, fault, erase, adjust

Description

Analysis Method of Eddy Current Testing Data

The present invention relates to a method for analyzing eddy current flaw detection data, and more particularly, through the new eddy current flaw data formed by synthesizing the Lissa diagram and strip chart of the eddy current flaw data for standard specimens and specimens, such as the presence or absence of defects in the specimen and the change of materials. The present invention relates to an eddy current detection data analysis method capable of determining and enabling anyone to easily and quickly interpret the measured data accurately.

In general, non-destructive testing methods that inspect the presence or absence of defects, material changes, and integrity on the inside and outside surfaces of the specimen without changing or destroying the properties and internal structure of the specimen, such as radiation, eddy current, ultrasound, magnetism, penetration and leakage inspection Methods and the like are known.

In the Eddy Current Test, an alternating magnetic field is generated when an alternating current flows in a coil, and the coil's impedance changes as the eddy current is induced as the coil approaches the conductive object. It is a test method which analyzes the state and the physical property of a conductive object by measuring the change of this impedance.

Eddy current inspection as described above is a test method that can be inspected at the same time the size and material changes of the defect, it is applied to the inspection of pipes, rods, wires and the like. For example, it is applied to the inspection of the tube of a heat exchanger, an aircraft or an automobile component, the crack of a metal plate turbine blade, a rivet hole, etc.

The data measured in the eddy current inspection are represented by the Lissajous figure or the strip chart of the X-axis component and the Y-axis component, respectively. Check it.

However, the inspector judges the presence or absence of defects and changes in the physical properties of the specimen by examining the measured Lisa plot or strip chart based on the Lisa plot or strip chart for the standard specimen. There is a difference in the accuracy of the results, and there is a risk of making an incorrect decision.

SUMMARY OF THE INVENTION The present invention has been made in view of the above, and provides an eddy current analysis data analysis method for comparing and synthesizing a Lissa diagram and strip chart of a standard specimen and a specimen data so that anyone can easily and quickly analyze the measured data. , Its purpose is.

In the proposed eddy current analysis data analysis method, eddy current inspection is performed on standard specimens to generate Lissaroid type and strip charts of normal data, inputted as X-axis and Y-axis coordinate values, and eddy current inspection on a test specimen. Create Lissajoin and strip charts of measured data and input them as X-axis and Y-axis coordinate values, adjust Lissajoint and strip charts of standard specimens and test specimens under the same conditions, and Lissa diagram and stripchart of standard specimens and test specimens. And the process of determining the defect or material change of the specimen through analysis of the resulting signal.

In the case of the LISA-driven type, adjustment is made under the same conditions with respect to the magnitude and sensitivity of the signal. In the case of a strip chart, adjustment is made under the same conditions with respect to the speed of the signal.

In addition, the Lisa plot and the strip chart of the measured data used in the above can also input the Lisa plot and the strip chart for the measured data in real time as the X-axis and Y-axis coordinate values. It is also possible to read an image file for a strip chart and enter it in the X and Y axis coordinates.

The LISA-driven and strip charts may be automatically generated and inputted by inputting only one of the two.

According to the eddy current detection data analysis method according to the present invention, since a signal for a defect or material change is shown in the measured data, anyone can easily and quickly analyze the signal.

In addition, it is possible to perform analysis by using LISA-driven or strip chart image files for existing measured data, which is very advantageous for beginners, trainees, and students to understand and understand the principle and analysis method of eddy current inspection. .

Next, a preferred embodiment of the eddy current inspection data analysis method according to the present invention will be described in detail with reference to the drawings.

First, as shown in FIG. 1, an embodiment of the eddy current analysis data analysis method according to the present invention inputs measurement data of a standard specimen (P10), inputs measurement data of a specimen (P20), and measures the measurement data of the specimen. Adjustments based on the measurement data of the standard specimen (P30), synthesis of the measurement data components of the standard specimen from the measurement data of the specimen (P40), and analysis of the signals of the new data (P50).

And one embodiment of the eddy current detection data analysis method according to the present invention, as shown in Figure 2, the eddy current detector 60 for performing the eddy current detection of the object in the control unit 10, for scanning the image to generate an image file By connecting the scanner 30, the memory unit 20 for storing measurement data of a test specimen or a standard specimen, the display unit 40 for displaying a Lissa lead type and a strip chart, the printer 50 for outputting data, and the like, Do it.

As shown in FIG. 3, the measurement data of the standard specimen is generated by using Lissajoi and strip charts and inputted as X-axis and Y-axis coordinate values.

As the measurement data of the standard specimen, as shown in FIG. 2, data obtained by using the eddy current flaw detector 60 is stored in advance in the memory unit 20 and used.

The controller 10 is configured to read the Lissa lead type and the strip chart of the measurement data of the standard specimen stored in the memory unit 20.

In the above, the Lissa lead type or the strip chart can be easily prepared in correspondence with each other, and it is possible to configure the controller 10 to automatically generate the other one when an input is made.

The Lissa principal form is a figure drawn by synthesizing two sinusoids, and is a plan view drawn in the form of x = Acos (Bt + C) and y = Dsin (Et + F) by the parameter t. In the above, A, D, C, and F are constants, and B: E must be an integer ratio in order to draw a continuous figure. If B: E = 1: 1, a circle is drawn.

The Lissa principal type is mainly used to compare frequency and phase.

The strip chart is a graph in which the magnitudes of the X-axis coordinate values and the Y-axis coordinate values are arranged in both horizontal directions with respect to the center line, and the time sequence is arranged in the vertical direction.

Therefore, the strip chart can easily analyze the signal corresponding to the change over time, that is, the length of the measurement.

In the Lissa diagram, the part indicated by the phase change is shown in chronological order in the longitudinal direction on the strip chart.

It is also possible to obtain the measurement data of the standard specimen from the data for measuring the test specimen in the eddy current flaw detector 60 without obtaining from the standard specimen. For example, it is also possible to use the data of a part without defect in the data obtained by measuring the test specimen through the eddy current detector 60 as the measurement data of the standard specimen. That is, when a certain object is continuously input without changing when a certain object is measured by the eddy current detector 60, it is also possible to use this as measurement data of a standard specimen.

The measured data of the test specimen is measured by performing eddy current inspection on the test specimen, and as shown in FIG. 4, the control unit 10 generates a Lissa diagram and a strip chart of the measured data of the test specimen to form X-axis and Y-axis. It is expressed by the axis coordinate value.

For example, the data input to the controller 10 in real time through the eddy current detector 60 is used as measurement data of the test object.

In addition, the measured data of the test specimen used in the above can also be used by reading the image file for the LISA map and strip chart obtained by measuring the existing X and Y axis coordinate values.

The image file may be used to generate an image file by scanning an image using the scanner 30, and captures the screen displayed on the monitor of the display unit 40 or the eddy current detector 60, and then uses the image file as an image file. It is also possible to create and use.

The measurement data of the test body may be used by reading the data stored in the memory unit 20 or an image file from the control unit 10.

In the step of adjusting the data (P30), the controller 10 adjusts the LISA plot and the strip chart of the measured data of the test specimen and the LISA plot and the strip chart of the measured data of the standard specimen under the same conditions.

In the case of the LISA-driven type, adjustment is made under the same conditions with respect to the magnitude and sensitivity of the signal. In the case of a strip chart, adjustment is made under the same conditions with respect to the speed of the signal.

For example, adjust the size and size of the strip chart of the Lissaguid form of the measurement data of the test specimen based on the magnitude, sensitivity, and speed of the signal of the measurement data of the standard specimen.

When the adjustment is made as described above, it is possible to match various variables due to differences in signal collection methods, signal collection speeds, signal collection equipment, signal collection probes, and the like. .

Figure 5 shows the state shown on the same X-axis and Y-axis so that the measurement data of the specimen under the same conditions as the measurement data of the standard specimen for easy comparison.

In the step of synthesizing the data (P40), the LISA plot and strip chart of the measurement data of the standard specimen and the LISA plot and strip chart components of the measurement data of the test sample are added or erased.

6 shows a state in which the measurement data of the standard specimen is erased from the measurement data of the test specimen.

When data is synthesized as described above, it is possible to judge defects and material changes of the test body by using the components of the newly formed signal.

On the other hand, the evaluation of the defect signal is performed using 100%, 60%, and 20% artificial defect signals from the measurement data of the standard specimen to create a phase angle versus defect depth curve, and the magnitude of the signal is measured using an amplitude (20% signal). It is possible to quantify the evaluation of the signal by setting volts.

By analyzing the data through the above process, it is possible to freely compare or mix the various signals which are not solved by the conventional analysis method, and anyone can easily analyze the signals quickly and eddy current detection It can also help you understand the principle.

In the above, a preferred embodiment of the eddy current inspection data analysis method according to the present invention has been described. However, the present invention is not limited thereto, and various modifications can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. This also belongs to the scope of the present invention.

1 is a flow chart showing an embodiment of the eddy current inspection data analysis method according to the present invention.

Figure 2 is a block diagram schematically showing a system for driving an embodiment of the eddy current detection data analysis method according to the present invention.

3 is an image showing a Lissa diagram and a strip chart of measured data subjected to eddy current inspection of a standard specimen.

Fig. 4 is an image showing a Lissa diagram and a strip chart of measured data obtained by eddy current inspection of a test body.

FIG. 5 is an overlapped image of the Lisa-lead strip and the strip chart of FIG. 3 and the Lisa-lead strip and the strip chart of FIG. 4 under the same conditions.

FIG. 6 is an image of a Lisa diagram and a strip chart showing a state in which the components of the Lisa chart and the strip chart of FIG. 3 are synthesized in the Lisa chart and the strip chart of FIG. 4.

Claims (5)

Lissa directed and strip charts of the measured data of standard specimens are generated and input as X-axis and Y-axis coordinate values, and the Lissa-driven and strip charts of the measured data are generated by performing eddy current inspection on the test specimen. The coordinates are entered, and the Lissa plot and strip chart of the measurement data of the standard specimen and the Lissa plot and strip chart of the measurement data of the test specimen are adjusted under the same conditions with respect to the signal size and sensitivity. Adjust for the speed and magnitude of the signal under the same conditions, and analyze the new signal component formed by synthesizing the Lissaguid form and the strip chart component of the measurement data of the standard specimen from the Lissaguid form and the strip chart of the test object's measurement data. Including the process of determining material changes, The measurement data of the standard specimen or test specimen is an eddy current analysis data analysis method using an image file for the Lissa lead type and strip chart obtained by measuring. delete The method according to claim 1, Eddy current detection data analysis method using the measurement data of the standard specimen or test specimen using data obtained in real time or data obtained by measuring previously. delete The method according to claim 1 or 3, The LISA-driven and strip chart input only one of the two and the other is automatically generated and used for eddy current detection data analysis method.

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