고유 변형도법과 리메슁 기술을 접목한 블록의 역세팅 형상 예측기술
KCI
- Title
- 고유 변형도법과 리메슁 기술을 접목한 블록의 역세팅 형상 예측기술
- Authors
- 현충민; 최한석; 박창우; 김성훈
- Date Issued
- 2017-12
- Publisher
- 한국해양공학회
- Abstract
- In order to reduce the cost of corrections and time needed for the block assembly process, the reverse setting method is applied for a back-heated block to neutralize deck deformation. The proper reverse setting shape for a back-heated block to correct deformation improved the deck flatness, but an excessive amount of reverse setting could inversely affect the flatness of the block. A prediction method was developed for the proper reverse setting shape using a back-heated block, considering the complex geometry of blocks, thickness of the deck plate, and thermal loading conditions such as welding and back-heating. The prediction method was developed by combining the re-meshing technique and inherent strain-based deformation analysis using the finite element method. Because the flatness deviation was decreased until the lower critical point and thereafter it tended to increase again, the optimum value for which the flatness was the best case was selected by repeatedly calculating the predefined reverse setting values. Based on this analysis and the study of the back-heating deformation of large assembly blocks, including the reverse setting shape, the mechanism for selecting the optimum reverse setting value was identified. The developed method was applied to the actual blocks of a ship, and it was confirmed that the flatness of the block was improved. It is concluded that the developed prediction method can be used to predict the optimum reverse setting shape value of a ship’s block, which will reduce the cost of corrections in the construction stage.
- Keywords
- Reverse setting 역세팅; Backheating 백히팅; Inherent strain method 고유변형도법; Remeshing technoloty 리메슁 기법
- URI
- https://oasis.postech.ac.kr/handle/2014.oak/50492
- DOI
- 10.26748/KSOE.2017.12.31.6.425
- ISSN
- 1225-0767
- Article Type
- Article
- Citation
- 한국해양공학회지, vol. 31, no. 6, page. 425 - 430, 2017-12
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