If a subsurface flaw is located near a component surface, the subsurface flaw is transformed into a surface flaw in accordance with a subsurface-to-surface flaw proximity rule. The recharacterization process from subsurface to surface flaw is adopted in all fitness-for-service (FFS) codes. However, the specific criteria of the recharacterizations are different among the FFS codes. Recently, the authors have proposed a new subsurface-to-surface flaw proximity rule based on experimental data and equivalent fatigue crack growth rate calculations. In this study, fatigue crack growth calculations were carried out for pipes with subsurface flaws, using the proximity rule provided in the current ASME (American Society of Mechanical Engineers) Section XI and JSME (The Japan Society of Mechanical Engineers) codes and the proposed subsurface-to-surface flaw proximity rule. Different pipe sizes, flaw aspect ratios, and ligament distances from subsurface flaws to inner surface of pipes were taken into account. The results indicate the current proximity rule gives less conservative fatigue lives, when the aspect ratios of the subsurface flaws are small.
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October 2016
Research-Article
Remaining Lives of Fatigue Crack Growths for Pipes With Subsurface Flaws and Subsurface-to-Surface Flaw Proximity Rules
Genshichiro Katsumata,
Genshichiro Katsumata
Japan Atomic Energy Agency (JAEA),
Shirakata,
Tokai-mura, Ibaraki-ken 319-1195, Japan
e-mail: katsumata.genshichiro@jaea.go.jp
Shirakata,
Tokai-mura, Ibaraki-ken 319-1195, Japan
e-mail: katsumata.genshichiro@jaea.go.jp
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Yinsheng Li,
Yinsheng Li
Japan Atomic Energy Agency (JAEA),
Shirakata,
Tokai-mura, Ibaraki-ken 319-1195, Japan
e-mail: li.yinsheng@jaea.go.jp
Shirakata,
Tokai-mura, Ibaraki-ken 319-1195, Japan
e-mail: li.yinsheng@jaea.go.jp
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Kunio Hasegawa,
Kunio Hasegawa
Center of Advanced Innovation Technologies
-VSB-Technical University of Ostrava,
17. listopadu15,
Ostrava-Poruba 708 00, Czech Republic
e-mail: kunioh@kzh.biglobe.ne.jp
-VSB-Technical University of Ostrava,
17. listopadu15,
Ostrava-Poruba 708 00, Czech Republic
e-mail: kunioh@kzh.biglobe.ne.jp
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Valery Lacroix
Valery Lacroix
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Genshichiro Katsumata
Japan Atomic Energy Agency (JAEA),
Shirakata,
Tokai-mura, Ibaraki-ken 319-1195, Japan
e-mail: katsumata.genshichiro@jaea.go.jp
Shirakata,
Tokai-mura, Ibaraki-ken 319-1195, Japan
e-mail: katsumata.genshichiro@jaea.go.jp
Yinsheng Li
Japan Atomic Energy Agency (JAEA),
Shirakata,
Tokai-mura, Ibaraki-ken 319-1195, Japan
e-mail: li.yinsheng@jaea.go.jp
Shirakata,
Tokai-mura, Ibaraki-ken 319-1195, Japan
e-mail: li.yinsheng@jaea.go.jp
Kunio Hasegawa
Center of Advanced Innovation Technologies
-VSB-Technical University of Ostrava,
17. listopadu15,
Ostrava-Poruba 708 00, Czech Republic
e-mail: kunioh@kzh.biglobe.ne.jp
-VSB-Technical University of Ostrava,
17. listopadu15,
Ostrava-Poruba 708 00, Czech Republic
e-mail: kunioh@kzh.biglobe.ne.jp
Valery Lacroix
Contributed by the Pressure Vessel and Piping Division of ASME for publication in the JOURNAL OF PRESSURE VESSEL TECHNOLOGY. Manuscript received September 28, 2015; final manuscript received February 4, 2016; published online April 29, 2016. Assoc. Editor: David L. Rudland.
J. Pressure Vessel Technol. Oct 2016, 138(5): 051402 (5 pages)
Published Online: April 29, 2016
Article history
Received:
September 28, 2015
Revised:
February 4, 2016
Citation
Katsumata, G., Li, Y., Hasegawa, K., and Lacroix, V. (April 29, 2016). "Remaining Lives of Fatigue Crack Growths for Pipes With Subsurface Flaws and Subsurface-to-Surface Flaw Proximity Rules." ASME. J. Pressure Vessel Technol. October 2016; 138(5): 051402. https://doi.org/10.1115/1.4032816
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