Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2011 | 18 | 2 |
Tytuł artykułu

Fatigue strength determination of ship structural joints. Part I. Analytical methods for determining fatigue strength of ship structures

Treść / Zawartość
Warianty tytułu
Języki publikacji
Spectacular accidents at sea which have happened for a few last years show that hull structures of contemporary sea-going ships are not perfect and must be systematically improved. Fatigue strength is one of the groups of strength problems which affect design of contemporary ship’s structures and greatly contribute in their improvement process. In this paper several approaches to estimation of fatigue life of hull structural elements are presented. In practice the some approaches based on nominal stresses, „hot spot” stresses or notch stresses which constitute the basis for fatigue life determination by using σ-N design curves are applied. In this paper the existing proposals have been critically analyzed and their drawbacks (often hidden) presented
Słowa kluczowe
Opis fizyczny
  • Faculty of Ocean Engineering and Ship Technology, Gdansk University of Technology, Narutowicza 11/12, 80-952 Gdansk, Poland
  • Faculty of Ocean Engineering and Ship Technology, Gdansk University of Technology, Narutowicza 11/12, 80-952 Gdansk, Poland
  • 1. Kozak J. at al.: Experimental methods in fatigue assessment of materials and structures (in Polish) Vol. III, Wydawnictwo Naukowe Instytutu Technologii Eksploatacji (Publishing House of Operational Technology Institute, PIB, Radom, 2009
  • 2. Rosochowicz K.: Problems of fatigue cracks in ship hull structures (in Polish). Wyd. Okrętownictwo i Żegluga (Publishing House Shipbuilding and Shipping), Gdańsk, 2000.
  • 3. Fricke W.: Local Approaches for Fatigue Assessment of Marine Structures. Materials of Seminar, Germanischer Lloyd, Hamburg,21-22 January 2008
  • 4. Mahmoud H.M., Dexter R.J.: Propagation rate of large cracks in stiffened panels under tension loading, Marine Structures 18, 2005
  • 5. Yamamoto Satoshi: Shipyard Experience in Structural Design of Double Hull Tankers- Past, Present and Future.- Tanker Structure Cooperative Forum (TSCF), Shipbuilders Meeting 2007
  • 6. Lodsberg I, Landet E.: Fatigue capacity of side longitudinals in floating structures. Marine Structure 18(2005)
  • 7. Kocańda S.: Fatigue fractures in metals (in Polish), WNT (Scientific Technical Publishing House), Warsaw, 1985
  • 8. Kubera S., Górski Z., Rosochowicz K., Jakubowski M.: Influence of material properties and technological factors on fatigue strength of ship structures (in Polish). Research reports, Ship Research Institute, Gdansk University of Technology, Gdansk, 1978
  • 9. Radaj D., Sonsino C. M., Fricke W.: Fatigue assessment of welded joints by local approaches. Woodhead Publishing Limited, 2006
  • 10. Górski Z., Kozak J.: Estimation of development of fatigue damage in a bilge corner of Ro- Ro ship. ASRANet Conference, Edinburgh, 2010.
  • 11. IACS: Common Structural Rules, 2008.
  • 12. Hobbacher A.F: The new IIW recommendations for fatigue assessment of welded joints and components- A comprehensive code recently updated. International Journal of Fatigue, Vol. 31, Is. 1, January 2009
  • 13. Stambauch K., Leeson D., Lawrence C., Hou Y.: Reduction of S-N Curves for Ship Structural Details. SSC-369, Ship Structural Committee,1993
  • 14. Presentation of Gdansk University of Technology. Materials from Technical Meeting “RISPECT Project” - PARIS November 2009,
  • 15. Fricke W.: Fatigue Strength of Ship Structures, Part I. Germanischer Lloyd, Hamburg, 1997.
  • 16. Germanischer Lloyd: Rules for Classification and Construction, Part 1: Seagoing Ships, Chapter 1: Hull Structure. Germanischer Lloyd, Edition 2002.
  • 17. DNV: Fatigue assessment of ship structures. Classification Notes No 30.7, Det Norske Veritas, June 2010
  • 18. IIW: Recommendations for fatigue design of welded joints and components. IIW document XIII-1965-03 / XV-1127-03
  • 19. Lotsberg I., Larsen P.K.: Developments in Fatigue Design for Offshore Structures. Det Norske Veritas paper No. 2001-IL-44
  • 20. Niemi E.: Recommendations Concerning Stress Determination for Fatigue Analysis of Welded Components. Abington Publishing, Cambridge UK, 1995. Stavanger, June 2001.
  • 21. Hobbacher A.: Fatigue Design of Welded Joints and Components. IIW, Abington Publishing, Cambridge, 1996.
  • 22. Yagi J., at al.: Definition of Hot Spot Stress in Welded Plate Type Structure for Fatigue Assessment. IIW-XIII-1414-91, 1991.
  • 23. DNV: Fatigue Strength Analysis for Mobile Offshore Units. Classification Note No 30.2, Det Norske Veritas, 1984.
  • 24. Germanischer Lloyd: Rules and guidelines, V – analysis techniques, chapter2 – guidelines for fatigue strength analyses of ship structures. Hamburg:. Germanischer Lloyd, Edition 2004.
  • 25. Bureau Veritas: Fatigue Strength of Welded Ship Structures. Bureau Veritas, NI 393 DSM R00 E, September 1994.
  • 26. Radaj J.: Review of fatigue strength assessment of non-welded and welded structures based on local parameters. Int. Journal of Fatigue, No3, 1996
  • 27. Maddox S.J.: Fitness for purpose assessment of misalignment in transverse butt welds subject to fatigue load. IIW XIII-1180-85, 1985.
  • 28. Proceedings of the 16th International Ship and Offshore Structures Congress, Vol. 1, Report of ISSC Committee III.2b- Fatigue and Fracture, 2006
  • 29. Proceedings of the 17th International Ship and Offshore Structures Congress, Vol. 1, Report of ISSC Committee III.2b- Fatigue and Fracture, 2009
  • 30. Crooker T.W.: Fracture mechanics fatigue design. Mechanical Engineering, June 1977
  • 31. Maddox S.J.: Calculating the fatigue strength design of welded joints using fracture mechanics. Metal Construction and BWJ, No 8, August 1970
  • 32. Nykanen T, Li X, Bjork T, Marquis G.: A parametric fracture mechanics study of welded joints with toe cracks and lack of penetration. Engineering Fracture Mechanics, 72, 2005
Typ dokumentu
Identyfikator YADDA
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.