Global and Detailed Local Fatigue Assessment of a Container Vessel - A comparison between linear and nonlinear FE-analyses

Container ships operating in the North Atlantic have a challenging structural design with respect to fatigue. The container vessels are long and slender and they have large openings in the deck. The structural design, in a combination of high wave loads, makes the ship sensitive to fatigue cracks. T...

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Bibliographic Details
Main Authors: Tesanovic, Andrea, Knifsund, Camilla
Other Authors: Chalmers tekniska högskola / Institutionen för sjöfart och marin teknik, Chalmers University of Technology / Department of Shipping and Marine Technology
Format: Other/Unknown Material
Language:English
Published: 2019
Subjects:
Farkostteknik
Transport
Vehicle Engineering
North Atlantic
Online Access:https://hdl.handle.net/20.500.12380/162626
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spelling ftchalmersuniojs:oai:odr.chalmers.se:20.500.12380/162626 2023-07-30T04:05:40+02:00 Global and Detailed Local Fatigue Assessment of a Container Vessel - A comparison between linear and nonlinear FE-analyses Tesanovic, Andrea Knifsund, Camilla Chalmers tekniska högskola / Institutionen för sjöfart och marin teknik Chalmers University of Technology / Department of Shipping and Marine Technology 2019-07-03T12:58:29Z application/pdf https://hdl.handle.net/20.500.12380/162626 eng eng Report. X - Department of Shipping and Marine Technology, Chalmers University of Technology, Göteborg, Sweden : 281 https://hdl.handle.net/20.500.12380/162626 Farkostteknik Transport Vehicle Engineering H 2019 ftchalmersuniojs https://doi.org/20.500.12380/162626 2023-07-08T19:54:42Z Container ships operating in the North Atlantic have a challenging structural design with respect to fatigue. The container vessels are long and slender and they have large openings in the deck. The structural design, in a combination of high wave loads, makes the ship sensitive to fatigue cracks. The estimated fatigue life according to class rule procedures is too short to be realistic in several fatigue-critical locations of container vessels. The class rules mainly base their assumptions on stress-based approach, where high stress-concentration factors are commonly accepted. This could be one of the reasons why plastic deformation occurs locally in ship structures and fatigue cracks appear at an early stage. The objective with this study is to simulate numerically and assess the structural response of a container ship by assuming either linear material, or nonlinear, material response. In order to enable such a study, a hydrodynamic analysis is adopted to simulate the wave-induced structural loads, followed by a linear and nonlinear FE-analysis in order to obtain the structural strength. A long-term fatigue analysis is performed to obtain the critical locations in the ship. A script is created that makes it possible to change between a linear and nonlinear FE-solver. The results from the long-term fatigue analysis indicate that the critical locations exist in the hatch corners, forward engine room bulkhead and in the bilge region. However, the side shell on the port side was chosen for further study. The results from the nonlinear structural FEanalysis indicate that almost no plastic deformation will occur in the critical region of the side shell. Hence, the conclusion was made that a strain-based approach to fatigue is not necessary for this location. A linear structural FE-analysis with the effect from internal ballast water was studied. The results from the linear structural FE-analysis with the effect from internal ballast pressure showed only a small impact on the stress-levels. For future work it is ... Other/Unknown Material North Atlantic Chalmers University of Technology: Chalmers Open Digital Repository (ODR)
institution Open Polar
collection Chalmers University of Technology: Chalmers Open Digital Repository (ODR)
op_collection_id ftchalmersuniojs
language English
topic Farkostteknik
Transport
Vehicle Engineering
spellingShingle Farkostteknik
Transport
Vehicle Engineering
Tesanovic, Andrea
Knifsund, Camilla
Global and Detailed Local Fatigue Assessment of a Container Vessel - A comparison between linear and nonlinear FE-analyses
topic_facet Farkostteknik
Transport
Vehicle Engineering
description Container ships operating in the North Atlantic have a challenging structural design with respect to fatigue. The container vessels are long and slender and they have large openings in the deck. The structural design, in a combination of high wave loads, makes the ship sensitive to fatigue cracks. The estimated fatigue life according to class rule procedures is too short to be realistic in several fatigue-critical locations of container vessels. The class rules mainly base their assumptions on stress-based approach, where high stress-concentration factors are commonly accepted. This could be one of the reasons why plastic deformation occurs locally in ship structures and fatigue cracks appear at an early stage. The objective with this study is to simulate numerically and assess the structural response of a container ship by assuming either linear material, or nonlinear, material response. In order to enable such a study, a hydrodynamic analysis is adopted to simulate the wave-induced structural loads, followed by a linear and nonlinear FE-analysis in order to obtain the structural strength. A long-term fatigue analysis is performed to obtain the critical locations in the ship. A script is created that makes it possible to change between a linear and nonlinear FE-solver. The results from the long-term fatigue analysis indicate that the critical locations exist in the hatch corners, forward engine room bulkhead and in the bilge region. However, the side shell on the port side was chosen for further study. The results from the nonlinear structural FEanalysis indicate that almost no plastic deformation will occur in the critical region of the side shell. Hence, the conclusion was made that a strain-based approach to fatigue is not necessary for this location. A linear structural FE-analysis with the effect from internal ballast water was studied. The results from the linear structural FE-analysis with the effect from internal ballast pressure showed only a small impact on the stress-levels. For future work it is ...
author2 Chalmers tekniska högskola / Institutionen för sjöfart och marin teknik
Chalmers University of Technology / Department of Shipping and Marine Technology
format Other/Unknown Material
author Tesanovic, Andrea
Knifsund, Camilla
author_facet Tesanovic, Andrea
Knifsund, Camilla
author_sort Tesanovic, Andrea
title Global and Detailed Local Fatigue Assessment of a Container Vessel - A comparison between linear and nonlinear FE-analyses
title_short Global and Detailed Local Fatigue Assessment of a Container Vessel - A comparison between linear and nonlinear FE-analyses
title_full Global and Detailed Local Fatigue Assessment of a Container Vessel - A comparison between linear and nonlinear FE-analyses
title_fullStr Global and Detailed Local Fatigue Assessment of a Container Vessel - A comparison between linear and nonlinear FE-analyses
title_full_unstemmed Global and Detailed Local Fatigue Assessment of a Container Vessel - A comparison between linear and nonlinear FE-analyses
title_sort global and detailed local fatigue assessment of a container vessel - a comparison between linear and nonlinear fe-analyses
publishDate 2019
url https://hdl.handle.net/20.500.12380/162626
genre North Atlantic
genre_facet North Atlantic
op_relation Report. X - Department of Shipping and Marine Technology, Chalmers University of Technology, Göteborg, Sweden : 281
https://hdl.handle.net/20.500.12380/162626
op_doi https://doi.org/20.500.12380/162626
_version_ 1772817732311449600

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