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Energy Materials
Materials Science and Engineering for Energy Systems
Volume 13, 2018 - Issue 2
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HIDA 7: Life/Defect Assessment and Failures in High Temperature Power Plant

Damage informatics concept for plant life-cycle management

Kazunari FujiyamaDepartment of Mechanical Engineering, Meijo University, Nagoya, JapanCorrespondence[email protected]
Pages 397-406 | Received 14 Jun 2017, Accepted 22 Aug 2017, Published online: 04 Sep 2017

References

  • Fujiyama K. Damage informatics and materials engineering for optimizing operation and maintenance of power plant components: Reference module in materials science and materials engineering. Oxford: Elsevier; 2016.10.1016/B978-0-12-803581-8.00893-6
  • Viswanathan R. Damage mechanisms and life assessment of high-temperature components. Metals Park, OH: ASM International; 1989.
  • Fujiyama K, Fujiwara T, Nakatani Y, et al. Risk -based damage assessment and maintenance management for turbine components. In: Veivo J, Auerkari P, editors. BALTICA VI. Life management and maintenance for power plants. Proceedings of VTT symposium 233; 2004 Jun 8–10; Helsinki-Stockholm. Finland-Sweden. p. 42–54.
  • Fujiyama K, Nagai S, Akikuni Y, et al. Risk-based inspection and maintenance systems for steam turbines. I J PVP. 2004;81:825–835.
  • Wadsworth GP, Bryan JG. Applications of probability and random variables. 2nd ed. New York (NY): McGraw-Hill; 1974. p. 233–234.
  • Fujiyama K, Kubo T, Akikuni Y, et al. An integrated approach of risk based maintenance for steam turbine components. OMMI Internet J. 2007; 4(2).
  • Fujiyama K, Fujiwara T, Nakatani Y, et al. Design, materials selection and life assessment of high temperature components using the unified statistical master curves of material properties. OMMI Internet J 2008;5(2).
  • Fujiyama K, Fujiwara T. Damage in high temperature components and the life assessment technologies. In: Kishi T, Richie RO, Ravi K, Yokobori Jr AT, editors. Proceedings of the 10th International Conference on Fracture[CD-ROM]; 2001 Dec 2–6; Honolulu, Hawaii, USA: Elsevier, 2001. 1 CD-ROM; ICF100868OR, \DATA\CONTENT\0868\PAPER.PDF.
  • McNaughton WP, Richman RH, Jaffee RI. “Superclean” 3.5NiCrMoV turbine rotor steel: a status report – Part I: Steelmaking practice, heat treatment, and metallurgical properties. J Mater Engng. 1991(1): 9–18.10.1007/BF02834119
  • Saito D, Yoshioka Y, Fujiyama K, et al. Material degradation and damage assessment for gas turbine transition pieces. Proceedings of the International Gas Turbine Congress; 1999 Nov 14–19; Kobe, Japan: 1999. p. 989–994.
  • Inagaki S, Kodama H, Fujiwara T, et al. Evaluation of corrosion fatigue life of LP rotor. J Thermal and Nuclear Power Engng Soc, Japan; 1996;47(2):154–160(in Japanese).
  • Fujiyama K, Takaki K, Nakatani Y, et al. Field damage data analysis and probabilistic fatigue life assessment of turbine components. Mater Sci Res Int. 2002 Sep;8(3):134–139.
  • Fujiyama K. Damage informatics for steam turbine components, Global J of Researches in engineering: A, Mechanical & mechanics engineering. USA: Global Journals Inc., 2014;14(6) Ver1.0:1–8.

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