• Title/Summary/Keyword: 누설자속 탑상

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Research on MFL PIG Design for caustic and defect the Inspection of Underground Gas Pipeline (지하매설 가스관의 부식 및 결함 탐지를 위한 비파괴 누설 탐상시스템 개발에 관한 연구)

  • Park, Sang-Ho;Park, Gwan-Soo
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2002.05a
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    • pp.11-20
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    • 2002
  • This paper describes the magnetic flux leakage(MFL) type non-destructive testing(NDT) system to detect the 3D defects on underground gas pipe. Magnetic systems with permanent magnets and yokes are analyzed by 3D non-lineal finite element method(FEM) with optimum design. In case of under-saturation of gas pipe, sensing signals are too weak to detect. In case of over-saturation, the changes of the sensing signals are too low to detect the defects sensitively. So, the operating points of the magnetic system are optimized to increase the changes of the MFL signals. The effects of the depth and size of the defects on the sensing signals are analyzed to define the range and resolution of the MFL sensors. To increase the sensor's sensitivity, the back-yoke sensors are introduced and tested.

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A Study on the Non-Contact Detection Technique of Defects Using AC Current - The Influence of Frequency and lift-off - (교류전류를 이용한 비접촉결함탐상법에 관한 연구 - 주파수 lift-off의 영향 -)

  • Kim, Hoon;Na, Eu-Gyun
    • Journal of the Korean Society for Nondestructive Testing
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    • v.22 no.1
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    • pp.53-58
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    • 2002
  • New nondestructive inspection (NDI) technique to detect the defect in metal was developed in which an electromagnetic field is induced in a metal by AC current flowing in the magnetic coil and the leak magnetic-flux disturbed by defects is measured using a tape-recorder head with air gap. This technique can be applied in evaluating the location and sizing of surface defects in components of the ferromagnetic body by means of the non-contacting measurement. In this paper, we have applied this technique to the evaluation of two-dimensional surface cracks in ferromagnetic metal, and also investigated the influence of the various frequencies and lift-off. Defects were detected with maximum values in the distribution of voltage and it was found that the maximum values tend to increase with the defect depth. Although the maximum values for defects are affected by the frequency and lift-off, the depth of small defects can be estimated from the linear relationship between the depth and voltage rate$(V_0/V_{ave})$.