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Fatigue Verification of Class 1 Nuclear Power Piping According to ASME BPV Code 被引量:1

Fatigue Verification of Class 1 Nuclear Power Piping According to ASME BPV Code
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摘要 In this paper, fatigue verification of Class 1 nuclear power piping according to ASME Boiler & Pressure Vessel Code, Section III, NB-3600, is addressed. Basic design requirements and relevant verification procedures using Design-By-Analysis are first reviewed in detail. Thereafter, a so-called simplified elastic-plastic discontinuity analysis for further verification when the basic requirements found unsatisfactory is examined and discussed. In addition, necessary computational procedures for evaluating alternating stress intensities and cumulative damage factors are studied in detail. The authors' emphasis is placed on alternative verification procedures, which do not violate the general design principles upon which the code is built, for further verification if unsatisfactory results are found in the simplified elastic-plastic analysis. An alternative which employs a non-linear finite element computation and a refined numerical approach for re-evaluating the cumulative damage factors is suggested. Using this alternative, unavoidable plastic strains can be correctly taken into account in a computationally affordable way, and the reliability of the verification will not be affected by uncertainties introduced in the simplified elastic-plastic analysis through the penalty factor Ke and other simplifications.
出处 《Journal of Energy and Power Engineering》 2012年第4期519-529,共11页 能源与动力工程(美国大卫英文)
关键词 Nuclear power PIPING low-cycle fatigue ASME BPV code alternative rule finite element cyclic plasticity. ASME 核查 疲劳 管道 核电 代码 理想弹塑性 计算程序
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参考文献13

  • 1DST Computer Services, S.A., PIPESTRESS User's Manual, Version 3.5.1, Switzerland, June 2004.
  • 2Boiler & Pressure Vessel Code, Section III, Div. 1, Subsections NB and Appendices, The American Society of Mechanical Engineers (ASME), 2010.
  • 3L. Zeng, L.G. Jansson, L. DahlstrSm, More on non-linear verification of nuclear power piping according to ASME III NB/NC, in: Proc. of 17th Int. Conf. Nuclear Eng. (ICONE17), Brussels, Belgium, 2009.
  • 4L.G. Jansson, L. Zeng, On design verification of nuclear power piping supports under combined stresses, in: Proc. of 17th Int. Conf. Nuclear Eng. (ICONE17), Brussel, Belgium, 2008.
  • 5L. Zeng, Design Verification of Nuclear Piping According to ASME III and Required Nonlinear Finite Element Analyses, Internal technical report, AF-Engineering AB, Sweden, 2007.
  • 6L. Zeng, L.G. Jansson, Non-linear design verification of nuclear power piping according to ASME III NB/NC, in: Proc. of 16th Int. Conf. Nuclear Eng. (ICONE 16), Orlando, USA, 2008.
  • 7L. Zeng, L.G. Jansson, L. Dahlstr~m, On fatigue verification of class 1 nuclear power piping according to ASME III NB-3600, in: Proc. of 18th Int. Conf. Nuclear Eng. (ICONEIS), Xi'an, China, 2010.
  • 8L. Zeng, L.G. Jansson, L. Dahlstr/Sm, More on fatigue verification of class 1 nuclear power piping according to ASME III NB-3600, in: Proc. of 19th Int. Conf. Nuclear Eng. (ICONEIg), Makuhari, Japan, 2011.
  • 9G.S. Slagis, G.T. Kitz, Commentary on Class 1 piping rules, Pressure Vessels, Piping and Components, Design and Analysis, ASME PVP, Vol. 107, 1986.
  • 10Criteria of the ASME Boiler and Pressure Vessel Code for Design by Analysis in Sections III and VIII, The American Society of Mechanical Engineers (ASME), N.Y., USA, 1969.

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