Journal of the Korean Society for Nondestructive Testing (비파괴검사학회지)

The Korean Society for Nondestructive Testing (한국비파괴검사학회)
권호 표지

Development of Ultrasonic Testing System for Piping Welds

배관 용접부 초음파검사 시스템 개발

  • Published : 2008.08.30
Download PDF
⟨ Previous Next ⟩

Abstract

Ultrasonic testing for welds is widely used to ensure the integrity of facilities in NPPs. Automated ultrasonic testing(AUT) is more consistent than the manual ultrasonic testing(MUT). It can scan welded parts, examines the scanned images, and saves the results as data files. AUT in NPPs is making use of commercial systems, and there has been some difficulties in calibration of the system. An AUT system is developed. It comprises of pulser/receiver, scanner and a control program(SonicWizard). The performance demonstration for piping welds in NPPs and the piping wall thickness measurement on site were conducted to verify this system. The test results of the ultrasonic testing system developed is satisfactory and effective.

원자력 발전소 설비의 건전성 확인을 위해서 주기적일 초음파탐상검사가 수행되고 있다. 수동 초음파탐상검사는 검사자의 경험 및 현장여건에 따라 균일한 검사 품질에 영향을 주게 되나, 자동 초음파탐상검사는 스캐너의 적용으로 검사 결과의 일관성을 유지하고, 디스크에 저장된 검사결과는 제3자에 의한 검토가 가능하다. 국내 원자력발전소에서 사용 중인 상용 초음파검사 시스템은 장비 구매, 교육 및 교정 등을 해외에 의존하고 있는 실정이다. 본 연구에서는 초음파 하드웨어, 배관 스캐너 및 초음파검사 프로그램(SonicWizard)으로 구성된 초음파검사 시스템을 개발하였다. 개발된 시스템의 검증을 위해 원전 배관 용접부의 자동 초음파검사 기량검증을 응시하여 인증을 획득하였으며, 현장 배관 감육 자동 초음파검사를 수행하여 정확한 감육상태를 확인함으로써 개발된 자동 초음파검사 시스템의 유효성을 확인하였다.

Keywords

References

  1. ASME B&PV Code Sec. XI, Rules for Inservice Inspection of Nuclear Power Plant Components, Division 1, (1995)
  2. ASME B&PV Code Sec. V, Non-Destructive Examination, (1995)
  3. API, Welding of Pipelines and Related Facilities, STD 1104, American Petroleum Institute, (1999)
  4. R. L. Powis and W. J. Powis, A Thinker's Guide to Ultrasonic Imaging, Urban & Schwarzwnberg, (1984)
  5. ASTM, Standard Practice for Mechanized Ultrasonic Examination of Girth Welds Using Zonal Discrimination with Focused Search Units, E-1961, (2003)
  6. V. Schmitz and W. Kappes, Data Acquisition and Evaluation with ${\mu}$-Processor Controlled Automatic Ultrasonic Testing Systems, Institution of Electrical Engineers, Colloquium on 21st, (2000)
  7. M. G. Silk, Sizing crack-like defects by ultrasonic means, Vol. 2, Ch. 2, Academic Press, London, (1977)
  8. J. P. Charlesworth and J. A. G. Temple, Engineering Applications of Ultrasonic Time-of-Flight Diffraction, Research Studies Press, England, (1989)
  9. S. R. Doctor, M. D. Avioli, Jr., R. L. Barron and R. L. Beverly, Improving Ultrasonic Inspection Reliability, ERPI-NP-2568, Electric Power Research Institute, (1982)
  10. C. I. K. Sinclair, 'Guidelines for the interpretation of automated ultrasonic test images: pulse echo,' 7314.01/96/944.03, TWI, (1997)
  11. Veritec Ltd, Microplus 2 ${\mu}$MAP - II, Operational and Software Licence Manual, Ver. 3, (2002)
  12. AMDATA, Intraspect Ultrasonic Imaging System Operations Manual, Ver. 6.0, (2003)
  13. R/D Tech, TomoView 2 Reference Manual, Vol. 1/2, (2003)