Influence of triangle reinforcement plate stiffeners on welding distortion mitigation of fillet welded structure for lightweight fabrication

To ensure the dimensional accuracy of fillet welded structures of a cantilever beam, triangle reinforcement plate stiffeners (TRPs) are employed to prevent welding distortion. However, this increases the weight of a structure. In this study, an efficient finite element (FE) computation was used to s...

Full description

Saved in:
Bibliographic Details
Published inOcean engineering Vol. 213; p. 107650
Main Authors Zhao, Hongquan, Zhang, Qingya, Niu, Yexing, Du, Shizhong, Lu, Jianhua, Zhang, Hongfei, Wang, Jiangchao
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.10.2020
Subjects
Online AccessGet full text

Cover

Loading…
More Information
Summary:To ensure the dimensional accuracy of fillet welded structures of a cantilever beam, triangle reinforcement plate stiffeners (TRPs) are employed to prevent welding distortion. However, this increases the weight of a structure. In this study, an efficient finite element (FE) computation was used to solve the afore mentioned engineering problem. The inherent deformations of typical welded joints in a mock-up welded structure were estimated through thermal elastic plastic FE (TEP FE) analysis. Subsequently, welding distortion of the mock-up welded structure was computed via elastic FE analysis wherein the inherent deformation was applied as a mechanical load. Specifically, the inherent deformation of a bevel fillet welded joint was initially estimated, and its precision was verified. The computed Z-direction welding displacement of a flange plate in the mock-up welded structure was in good agreement with the measured values. Hence, it was evident that TRPs mitigated the welding deflection of the flange plate. A series of elastic FE computations showed that the Z-direction welding displacement of the flange plate in an actual welded structure does not increase. However, the total weight of the actual welded structure apparently decreases when the position and number of TRPs are optimized. •Mock-up fillet welded structure was fabricated experimentally with TRPs to reduce welding distortion.•Bevel welded joint was examined for welding inherent deformation evaluation, which was validated by comparative analysis.•Influence of TRPs on welding distortion was examined, good agreement between computed result and measurement was observed.•Towards to dimensional accuracy and structural lightweight, TPRs were optimized for actual welded structure fabrication.
ISSN:0029-8018
1873-5258
DOI:10.1016/j.oceaneng.2020.107650