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Tytuł artykułu

Experimental and numerical investigations of ultimate strength of imperfect stiffened plates of different slenderness

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The objective of this study is to analyse the behaviour of compressed stiffened plates of different slenderness using experimental and numerical methods. The presented results are part of a long-term project to investigate the ultimate strength of geometrically imperfect structures subjected to different degradation phenomena, including corrosion degradation and locked cracks. Several specimens were subjected to a uniaxial compressive force, and the most important quantities related to the structural behaviour were captured and analysed. A finite element model, accounting for material and geometrical nonlinearities and initial geometrical imperfections, was developed using the commercial software ANSYS. The residual welding-induced stresses were measured in the middle cross-section for two specimens. The initial imperfection was identified by employing a close-range photogrammetry approach. It was concluded that the numerical analyses, based on the finite element model, predict the ultimate strength of stiffened plates accurately, although some deviations were also observed. The detailed analysis with the indication of possible uncertainty is presented, and several conclusions are derived.
Słowa kluczowe
Rocznik
Tom
Strony
120--129
Opis fizyczny
Bibliogr. 30 poz., rys., tab.
Twórcy
  • Gdansk University of Technology, Faculty of Ocean Engineering and Ship Technology, Narutowicza 11/12, 80-233 Gdańsk, Poland
  • Centre for Marine Technology and Ocean Engineering (CENTEC), Instituto Superior Técnico, Universidade de Lisboa, Avenida Rovisco Pais , 1049-001 Lisboa, Portugal
  • Gdansk University of Technology, Faculty of Ocean Engineering and Ship Technology, Narutowicza 11/12, 80-233 Gdańsk, Poland
  • Gdansk University of Technology, Faculty of Ocean Engineering and Ship Technology, Narutowicza 11/12, 80-233 Gdańsk, Poland
Bibliografia
  • 1. M. Taczala, “Approximate method for evaluation of stressstrain relationship for stiffened panel subject to tension, compression and shear employing the finite element approach,” Proc. MARSTRUCT 2009, 2nd Int. Conf. Mar. Struct. Des. Mar. Struct., 2009. pp. 155–61.
  • 2. J. Czujko, A. Bayatfar, M. Smith, M. Xu, D. Wang, M. Lützen et al., “Committee III.1: Ultimate Strength,” in: M. Kaminski, P. Rigo, Eds. Proc. 20th Int. Sh. Offshore Struct. Congr. (ISSC 2018), vol. 1, IOP Press; 2018. pp. 335–439.
  • 3. D.W. Lang, W.G. Warren, “Structural strength investigations on the destroyer Albuera,” Trans. Inst. Nav. Arch., vol. 94, pp. 243–86, 1952.
  • 4. Y. Wang, S. Xu, A. Li, “Flexural performance evaluation of corroded steel beams based on 3D corrosion morphology,” Struct. Infrastruct. Eng., vol. 16, pp. 1–16, 2020.
  • 5. D. Faulkner, “A review of effective plating for use in the analysis of stiffened plating in bending and compression,” J. Sh. Res., vol. 19, pp. 1–17, 1975.
  • 6. K. Woloszyk, Y. Garbatov, “Analysis of ultimate compressive strength of cracked plates with the use of DOE techniques,” Polish Marit. Res., vol. 27, pp. 109–20, 2020.
  • 7. M. Horne, R. Narayanan, “Ultimate capacity of stiffened plates used in girders,” Proc. Inst. Civ. Eng., vol. 61(2), pp. 253–80, 1976.
  • 8. M.R. Manco, M.A.Vaz, J.C.R. Cyrino, N.M. Ramos, D.A. Liang, “Experimental and numerical study of uniaxially compressed stiffened plates with different plating thickness,” Thin-Walled Struct., vol. 145, p. 106422, 2019.
  • 9. O. Ozguc, “Assessment of buckling behaviour on an FPSO deck panel,” Polish Marit. Res., vol. 27, pp. 50–8, 2020.
  • 10. P. Dowling, S. Chatterjee, P.A. Frieze, F.M. Moolani, “Experimental and predicted collapse behaviour of rectangular steel box girders,” Int. Conf. on Steel Box Girder Bridges, London: Institute of Civil Engineers, 1973. pp. 77–94.
  • 11. S. Saad-Eldeen, Y. Garbatov, C. Guedes Soares, “Ultimate strength assessment of corroded box girders,” Ocean Eng. vol. 58, pp. 35–47, 2013.
  • 12. S. Saad-Eldeen, Y. Garbatov, C. Guedes Soares, “Experimental assessment of the ultimate strength of a box girder subjected to severe corrosion,” Mar. Struct., vol 24, pp. 338–57, 2011.
  • 13. S. Saad-Eldeen, Y. Garbatov, C.G. Soares, “Corrosiondependent ultimate strength assessment of aged box girders based on experimental results,” J. Sh. Res., vol. 55, pp. 289–300, 2011.
  • 14. S. Xu, B. Liu, Y. Garbatov, W. Wu, C. Guedes Soares, “Experimental and numerical analysis of ultimate strength of inland catamaran subjected to vertical bending moment,” Ocean Eng., vol. 188, p. 106320, 2019.
  • 15. J. Wang, S. Zang, “Ultimate strength experimental research for longitudinal box girders module model,” Shipbuilding China, vol. 2, p.008, 2011.
  • 16. K. Woloszyk, Y. Garbatov, J. Kowalski, L. Samson, “Numerical and experimental study on effect of boundary conditions during testing of stiffened plates subjected to compressive loads,” Eng. Struct. 2020, submitted for publication.
  • 17. K. Woloszyk, Y. Garbatov, “FE analysis of supportspecimen interaction of compressive experimental test,” in: Sustainable Development and Innovations in Marine Technology, P. Georgiev, C.G. Soares, Eds. CRC Press, 2019, pp. 423–8.
  • 18. S. Zhang, “A review and study on ultimate strength of steel plates and stiffened panels in axial compression,” Ships Offshore Struct., vol. 11(1), pp. 81–91, 2015.
  • 19. M. Chmielewski, L. Piotrowski, B. Augustyniak, “A fast procedure of stress state evaluation in magnetically anisotropic steels with the help of a probe with adjustable magnetizing field direction,” Meas. Sci. Technol., vol. 28, p. 045903, 2017.
  • 20. Y. Garbatov, C. Guedes Soares, K. Masubuchi, “Residual stresses and distortion in welds,” in: Reference Modules in Materials Science and Materials Engineering, Elsevier, 2016.
  • 21. ANSYS. Online Manuals, Release 19 2019.
  • 22. K. Woloszyk, Y. Garbatov, “Uncertainty assessment of ultimate strength of corroded stiffened plates subjected to maintenance,” in: Sustainable Development and Innovations in Marine Technology, P. Georgiev, C. Guedes Soares, Eds. CRC Press, 2019, pp. 429–36.
  • 23. T. Urbański, A. Banaszek, W. Jurczak, “Prediction of welding-induced distortion of fixed plate edge using design of experiment approach,” Polish Marit. Res., vol. 27, pp. 134–42, 2020.
  • 24. T. Urbański, M. Taczała, “Prediction of a transverse shrinkage of butt welded joints in shipyard conditions using the design of experimental approach,” Int. J. Nav. Archit. Ocean Eng., vol. 12, pp. 784–98, 2020.
  • 25. B.Q. Chen, Y. Garbatov, C. Guedes Soares, “Measurement of weld-induced deformations in three-dimensional structures based on photogrammetry technique,” J. Sh. Prod., vol. 27, pp. 51–62, 2011.
  • 26. K. Woloszyk, P. Bielski, Y. Garbatov, T. Mikulski, “Photogrammetry image-based approach for imperfect structure modelling and FE analysis,” 2020, manuscript in preparation.
  • 27. J. Cui, D. Wang, “An experimental and numerical investigation on ultimate strength of stiffened plates with opening and perforation corrosion,” Ocean Eng., vol. 205, p. 107282, 2020.
  • 28. K. Woloszyk, Y. Garbatov, “Ultimate strength of stiffened plates subjected to compressive load and spatially distributed mechanical properties,” in: Proceedings MARTECH 2020, 2020, (accepted for print).
  • 29. International Association of Classification Societies. Common Structural Rules (BC & OT). 2018.
  • 30. J.K. Paik, A.K. Thayamballi, “Empirical formulation for predicting the ultimate compressive strength of stiffened panels,” Proc. Int. Offshore Polar Eng. Conf., 1997.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e1c35a26-d333-4e8a-bcea-ab381666bd1a
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