Journal of Welding and Joining

The Korean Welding and Joining Society (대한용접접합학회)
권호 표지
DOI QR코드

DOI QR Code

A weld-distortion analysis method of the shell structures using ultra structural FE model

초대형 구조모델을 활용한 쉘구조물의 용접변형 해석

  • Ha, Yunsok (Material testing & Production CAE Research, Samsung Heavy Industries, Co., Ltd.) ;
  • Yi, Myungsu (Material testing & Production CAE Research, Samsung Heavy Industries, Co., Ltd.)
  • 하윤석 (삼성중공업 중앙연구소 시험변형연구파트) ;
  • 이명수 (삼성중공업 중앙연구소 시험변형연구파트)
  • Received : 2015.05.18
  • Accepted : 2015.06.04
  • Published : 2015.06.30
Download PDF
⟨ Previous Next ⟩

Abstract

A very large shell-structure built in shipyards like ship hulls or offshore structures are joined by welding through full process. As the welding contains a high thermal cycle at a local area, the welded structures should be distorted unavoidably. Because a distorted ship block should be revised to the designed value before the next stage, the ability to predict and to control the weld distortion is an accuracy level of the yard itself. Despite the ship block size, several present thermal distortion methodologies can deal those sizes, but it is a different story to deal full ship size model. Even a fully constructed ship hull not remaining any welding can have an accuracy issue like outfitting installation problems. Any present thermal distortion methodology cannot accept this size for its recommended element size and the number. The ordinary welding breadth at erection stage is about 20~40 mm. It can hardly be a good choice to make finite element model of these sizes considering human effort and computational environment. The finite element model for structure analysis of a ship hull is prepared at front-end engineering design stage which is the first process of the project. The element size of the model is as fine as the longitudinal space, and it is not proper to obtain a weld distortion at the erection stage. In this study, a methodology is suggested that a weldment can be shrunk at original place instead of using structural finite element model. We cut the original shell elements at erection weld-line and put truss elements between the edges of cut elements for weld shrinkage. Additional truss elements are used to facsimile transverse weld shrinkage which cannot be from the weld-line truss element shrink. They attach to weld-line truss element like twigs from barks. The capacity of developed elements is verified through an accuracy check of erection process of a container vessel at the apt. hull. It can be a useful tool for verifying a centering accuracy after renew and for block-separating planning considering accuracy.

Keywords

References

  1. Sungku Kang and Jongsoo Yang, Overview of Research Works Regarding Welding Distortion, Journal of KWJS, 30 (2) (2012), 37-42 (in Korean)
  2. Kazuki Ikushima, Masakazu Shibahara, Shinsuke Itoh and Ninshu Ma, Ultra Large Scale FE Computation Using Idealized Explicit FEM Accelerated by GPU, Transaction of JWRI, Special Issue on WES2011
  3. Yunsok Ha, Sihoon Cho and Taewon Jang, Develop ment of Welding Distortion Analysis Method Using Residual Strain as Boundary Condition, MSF, 580-582 (2008), 649-654 https://doi.org/10.4028/www.scientific.net/MSF.580-582.649
  4. Yunsok Ha, A Study on Weldment Boundary Condition for Elasto-Plastic Thermal Distortion Analysis of Large Welded Structures, Journal of KWJS, 29 (4) (2011), 48-53 (in Korean)
  5. Yunsok Ha and Changdoo Jang, An Improved Inherent Strain Analysis for Plate Bending by Line Heating Considering Phase Transformation of Steel, International Journal of Offshore and Polar Engineering, 17 (2) (2007), 139-144
  6. Yunsok Ha, Deveolpment of Thermal Distortion Analysis Method on Large Shell Structure Using Inherent Strain as Boundary Condition, Journal of the society of Naval Architecture of Korea, 45 (1) (2008), 93-100 (in Korean) https://doi.org/10.3744/SNAK.2008.45.1.93
  7. Taejun Kim, Beomseon Jang and Sungwook Kang, Welding Deformation Analysis based on Improved Equivalent Strain Method Considering the effect of Temperature Gradients, International Journal of Naval Architecture and Ocean Engineering, 7 (1) (2015), 151-173
  8. Yunsok Ha, Changdoo Jang, Jongtae Kim and Hyungsuk Mun, Analysis of Post-Weld Deformation at the Heat- Affected Zone Using External Forces Based on the Inherent Strain, International Journal of Precision Engineering and Manufacturing, 8 (4) (2007), 56-62
  9. Changdoo Jang, Changhyun Lee and Daeeun Ko, Prediction of Welding Deformations of Stiffened Panels, Journal of Engineering for Maritime Environment, 216-M (2002), 133-143