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Materials at High Temperatures Volume 34, 2017 - Issue 5-6: HIDA 7: Life/Defect Assessment and Failures in High Temperature Power Plant
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HIDA 7: Life/Defect Assessment and Failures in High Temperature Power Plant

The use of the potential drop technique for creep damage monitoring and end of life warning for high temperature components

A. WojcikDepartment of Mechanical Engineering, University College London, London, UKCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-3301-7007
ORCID Icon,
M. WaittMatelect Ltd, Harefield, UKORCID Iconhttp://orcid.org/0000-0001-6190-153X
ORCID Icon &
A. S. SantosMatelect Ltd, Harefield, UK
Pages 458-465 | Received 31 May 2017, Accepted 22 Sep 2017, Published online: 11 Oct 2017

References

  • Venkatsubramanian TV, Unvala BA. An AC potential drop system for monitoring crack length. J Phys E: Sci Instrum. 1985;17(9):765–771.
  • Gibson GP. The use of alternating current potential drop for measuring J-crack resistance curves. Eng Fract Mech. 1987;26(2):213–222.10.1016/0013-7944(87)90198-6
  • Annex A6. Guidelines for electrical Potential difference determination of crack size, ASTM E647-15e1 Standard Test Method for Measurement of Fatigue Crack Growth Rates, ASTM International; 2015.
  • Marchand NJ, Dorner W, Ilschner B. A novel procedure to study crack initiation and growth in thermal fatigue testing. ASTM STP. 1990;1060:237–259.
  • Fanjiang M, Lu Z, Shoji T, et al. Stress corrosion cracking of uni-directionally cold worked 316NG stainless steel in simulated PWR primary water with various dissolved hydrogen concentrations. Corros Sci. 2011;53:2558–2565.

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