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Crack initiation in steel parts working in boilers and steam pipelines

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The purpose of this paper is to identify the influence of loading history and the processes of material degradation on the crack initiation and on durability under thermo-mechanical fatigue conditions. Design/methodology/approach: Based on the operation data, the conditions of laboratory examinations of specimens were determined. A specialist apparatus unit was used for the examination, enabling the simulation of any spectrum of mechanical load and temperature changes. Findings: The material durability criterion has been defined based on an energy related approach to the problem of crack initiation in steels which work under thermal fatigue conditions. Research limitations/implications: In the case discussed, i.e. a pipeline part, the present criteria should be expanded with critical values describing the total length of cracks initiated on the internal surface of a specimen. Practical implications: The paper refers to the research on steel 10H2M (10CrMo.910) used in the conventional boilers, superheaters and pipelines in power plants. Originality/value: Originality of the paper is the methodology of the lifetime prediction of steam pipeline parts working in thermo-mechanical fatigue conditions.
Rocznik
Strony
49--52
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
autor
Bibliografia
  • [1] Z. Orłoś, Thermal stresses, PWN, Warszawa, 1991 (in polish).
  • [2] H. Kuhn, D. Medlin, Mechanical Testing and Evaluation, Volume 8, ASM Handbook, ASM International, October 2000.
  • [3] D. Renowicz, Development of life assesment criteria applying distortion interactions in heat resistance steels, Project of investigation no. 7 T08B 005 19, KBN Warszawa, 2002 (in polish).
  • [4] M. Nagode, F. Zingsheim, An online algorithm for temperature influenced fatigue-life estimation: strain-life approach, International Journal of Fatigue, 26, 2004, 155-161.
  • [5] D. Renowicz, A. Hernas, M. Ciesla, K. Mutwil, Degradation of the cast steel parts working in power plant pipelines, Proceedings of the 15th Scientific International Conference "Achievements in Mechanical and Materials Engineering" AMME'2006, Gliwice-Wisła Vol. 18, Issue 1-2, 2006.
  • [6] L. Guobin, L. Xiangzhi, J. Yanfei, L. Guiyun, The nucleation and propagation on thermal fatigue crack in 4Cr2NiMoV steel, Journal of Materials Processing Technology 100, 2000, 63-66.
  • [7] M. Hayashi, Thermal fatigue behavior of thin-walled cylindrical carbon steel specimens in simulated BWR environment, Nuclear Engineering and Design, 184, 1998, 123-133.
  • [8] M.A. Wahab, B.M.Saba, A.Raman, Fracture mechanics. evaluation of a 0.5Mo carbon steel subjected to high temperature hydrogen attack, Journal of Materials Processing Technology, 153-154, 2004, 938-944.
  • [9] J. Okrajni, K. Mutwil, M. Cieśla, Chemical pipelines material fatigue, Journal of Materials Processing Technology 164-165 (2005) 897-904.
  • [10] D. Renowicz, M. Cieśla, W. Essler: Investigations of crack initiation in steels for the power engineering industry under thermo-mechanical fatigue conditions. 20th Symposium of Fatigue and Cracking Mechanics, Bydgoszcz Pieczyska 2004, 347-354 (in polish).
  • [11] J. Okrajni, K. Mutwil, M. Cieśla, W.Nowak, Investigation of power plant pipelines' effort and assessment of their technical state, in V.V. Panasjuk (Ed.), Fracture Mechanics of Materials and Structural Integrity, National Academy of Sciences of Ukraine, Lviv 2004, pp. 395-401.
  • [12] S. Kocańda, J. Szala, Basic calculations of fatigue, PWA Warszawa, 1991 (in Polish).
  • [13] J. Okrajni, G. Junak, Fatigue Damage Description of Steels at Elevated Temperatures, ECF -14 The 14th European Conference on Fracture, Cracow, Poland, 8-13 September 2002.
  • [14] G.A. Webster, R.A. Ainsworth, High temperature Component Life Assessment, Chapman & Hall, London 1994.
  • [15] L. Guobin, L. Xiangzhi, W. Jianjun, Study of the thermal fatigue crack initial life of H13 and H21 steel, Journal of Materials Processing Technology 74, 1998, 23-26.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BOS3-0016-0085
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