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Estimation of buckling response of the deck panel in axial compression

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Języki publikacji
EN
Abstrakty
EN
In this work, buckling strength assessment of a deck of a double hull oil tanker is carried out using the non-linear finite element code ADVANCE ABAQUS. The comparisons are performed with the Det Norske Veritas (DNV-GL) PULS (Panel Ultimate Limit State) buckling code for the stiffened panels, DNV-GL Classification Notes (CN) No.30.1 and the DNV-GL Ship Rules. The case studied corresponds to axial compression. Two levels of imperfection tolerances are analyzed, in accordance with the specifications in the DNV-GL Instruction to Surveyors (IS) and the DNV-GL Classification Notes No. 30.1. Both “as built” and DNV–GL Rule “net” dimensions are analyzed. The strength values from ADVANCE ABAQUS and PULS are very close. DNV-GL CN 30.1 is in conservative side, but the strength differences between the “as built” and “net” dimension cases are consistent with the finite element analysis results. This paper gives a brief description of the background for the stiffened panel models used in PULS, and comparison against non-linear FE analysis, and DNV-GL Classification Society Rules. The finite element code ADVANCE ABAQUS is employed in a non-linear buckling analysis of a stiffened deck panel on a double skin tanker that is subjected to a Condition Assessment Program (CAP) hull survey. The aim of the analyses has been to validate and compare the buckling capacity estimates obtained from PULS, DNV-GL Classification Notes No.30.1 (CN 30.1) and the DNV-GL Ship Rules.
Rocznik
Tom
Strony
98--105
Opis fizyczny
Bibliogr. 19 poz., rys., tab.
Twórcy
autor
  • Department of Naval Architecture and Ocean Engineering, Istanbul Technical University, Istanbul, Turkey
Bibliografia
  • 1. Ko JY, Oh YC, Park JS.: Estimation of buckling and plastic behaviour according to the analysis model of the stiffened plate. Journal of Navigation and Port Research, Vol.31, Issue 3, 2007, pp.271-279.
  • 2. Ozguc O, Das PK, Barltrop N.: The new simple design equations for the ultimate compressive strength of imperfect stiffened plates. Ocean Engineering, Vol. 34, Issue 7, 2007, pp. 970–986.
  • 3. Paik JK, Kim BJ, Seo JK.: Methods for ultimate limit state assessment of ships and ship-shaped offshore structures: Part II stiffened panels. Ocean Engineering, Volume 35, Issue 2, 2008, pp. 271–280.
  • 4. Chaithanya PP, Das PK, Crow A, Hunt S.: The effect of distortion on the buckling strength of stiffened panels, Ships and Offshore Structures, Vol.5, 2010.
  • 5. Xu MC and Soares CG.: Numerical assessment of experiments on the ultimate strength of stiffened panels, Engineering Structures, Vol.45, 2012, pp. 460–471.
  • 6. Tekgoz M, Garbatov Y, Soares CG.: Ultimate strength assessment for the effect of finite element modelling, Maritime Engineering and Technology, 2012.
  • 7. Cho SR, Kim HS, Doh HM, Chon YK.: Ultimate strength formulation for stiffened plates subjected to combined axial compression, transverse compression, shear force and lateral pressure loadings. Ships and Offshore Structures, Vol.8, 2013.
  • 8. Zhang S.: A review and study on ultimate strength of steel plates and stiffened panels in axial compression. Ships and Offshore Structures, Vol.11, 2016.
  • 9. Zhang Y, Huang Y, Meng F.: Ultimate strength of hull structural stiffened plate with pitting corrosion damage under uniaxial compression, Marine Structures, Volume 56, November 2017, pp. 117-136.
  • 10. Ozdemir M, Ergin A, Yanagihara D, Tanaka S, Yao T.: A new method to estimate ultimate strength of stiffened panels under longitudinal thrust based on analytical formulas. Marine Structures, Vol. 59, 2018, pp. 510-535.
  • 11. Shi XH, Zhang J, Soares CG.: Numerical assessment of experiments on the ultimate strength of stiffened panels with pitting corrosion under compression, Thin-Walled Structures, Vol. 133, 2018, pp. 52-70.
  • 12. ABAQUS Analysis User’s Guide.: Unstable collapse and post-buckling analysis, 2017.
  • 13. Hibbit Karlson and Sorensen Inc.: ABAQUS/Standard User’s Manual, 2012.
  • 14. Steen E, Byklum E and Vilming KG.: PULS verification manual - PULS Version 2.0, May 2010.
  • 15. DNV GL Classification Notes.: Buckling strength analyses, CN 30.1, 2017.
  • 16. DNV GL Rules for Classification.: Hull structural design ships with length 100 metres and above, Part 3 Chapter 1, 2018.
  • 17. Marguerre K.: Zur theorie der gekrummten platte grosser formeandrug”, Proceedings of the 5th international congress for applied mechanics, p. 93101, 1938.
  • 18. Byklum E, Steen E, and Amdahl J.: A semianalytical model for global buckling and postbuckling analysis of stiffened panels”. Thin Walled structures, Vol. 42 (5), pp 701-7171, 2004.
  • 19. DNV GL.: Hull survey – Workmanship standard, DNV Instructions to Surveyors No. I-B3.3, 2015.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5dcb84b0-7a01-4367-967b-38ec9c41da75
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