한국생산제조학회지 (Journal of the Korean Society of Manufacturing Technology Engineers)

  • 제26권3호
  • /
  • Pages.306-312
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  • 2017
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  • 2508-5093(pISSN)
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  • 2508-5107(eISSN)
한국생산제조학회 (The Korean Society of Manufacturing Technology Engineers)
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압연롤 검사를 위한 다중 센서 와전류 탐상 검사 시스템 개발

Development of Multi-channel Eddy Current System for Inspection of Press Rolls

  • Lee, Jae-Ho (The Graduate School of NID Fusion Technology, Seoul National University of Science & Technology) ;
  • Park, Tae-Sung (Department of Mechanical & Automotive Engineering, Seoul National University of Science & Technology) ;
  • Park, Ik-Keun (Department of Mechanical & Automotive Engineering, Seoul National University of Science & Technology)
  • 투고 : 2017.03.27
  • 심사 : 2017.06.05
  • 발행 : 2017.06.15
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초록

Press rolls are constantly exposed to physical and heat stresses on their surface and are prone to crack, bruise, and spall if the accumulated stress goes beyond the critical point. Such surface phenomenon can cause them to lose their functionality and eventually lead to a halted production line. Eddy current testing can be considered a useful method to investigate the surface of the roll. The method involves the application of a high intensity magnetic field onto the surface of the roll, and thereby finding any early stage of possible defects. When the method was applied for roll inspection, the cross section of the sensor was regulated as per the overall testing speed. A smaller cross sectional area implied a better resolution but a longer testing time. In this paper, a convenient method to increase both overall system resolution and inspection speed of eddy current roll inspection is suggested by using a devised array sensor structure.

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참고문헌

  1. Hurley, D. C., Hedengren, K. H., Young, J. D., 1992, Eddy Current Arrays for Defect Detection, Review of Progress in Quantitative Nondestructive Evaluation, 28 1137-1144.
  2. Benhadda, N., Bouchala, T., Guettafi, A., Abdelhadi, B., 2014, Study of the Influence of Conductive Defect Characteristics on Eddy Current Differential Probe Signal, Journal of Electrical Eng., 14 350-357.
  3. Stucky, P. A., 1991, Diffusion Effects in Eddy Current Nondestructive Evaluation, A Thesis for Master of Science, Iowa State University, USA.
  4. Drobne, M., Vuherer T., Samardzic, I., Glodez, S., 2014, Fatigue Crack Growth and Fracture Mechanics Analysis of a Working Roll Surface Layer Material, Metallurgy, 53:4 481-484.
  5. Theodoulidis, T. P., 2003, Model of Ferrite-Cored Probes for Eddy Current Nondestructive Evaluation, Journal of Applied Physics, 93:5 3071-3078. https://doi.org/10.1063/1.1543634
  6. Upda, S. S., Moore, P. O., 2004, Nondestructive Testing Handbook 3rd Edition: Electromagnetic Testing, American Society for Nondestructive Testing.