Characterization of non-steady-stage during friction stir welding

•Numerical simulation of the FSW process.•The non-steady-stage objectively exists.•The non-steady-stage has typical characteristics.•Instability in temperature and axial force leads to the generation of defects.•The weld quality within 50 mm of the weld end is proven to be qualified. Friction stir w...

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Bibliographic Details
Published in:Materials letters 2024-08, Vol.369, p.136592, Article 136592
Main Authors: Wang, Kun, Dong, Peng, Niu, Xujing, Qin, Liuyang, Bian, Gongbo, Zhang, Hongxia
Format: Article
Language:English
Subjects:
Characteristics of defects
Friction stir welding
Metals and alloys
Non-steady-stage
Simulation and modelling
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Summary:•Numerical simulation of the FSW process.•The non-steady-stage objectively exists.•The non-steady-stage has typical characteristics.•Instability in temperature and axial force leads to the generation of defects.•The weld quality within 50 mm of the weld end is proven to be qualified. Friction stir welding (FSW) has been widely applied in joining lightweight metals such as aluminum alloys. Similar to traditional arc welding, FSW also experiences a non-steady-stage in the initial stage of welding. Regarding the characteristics of the non-steady-stage during the FSW process, there has been a lack of research by scholars in this area. In this work, the Coupled Eulerian-Lagrangian (CEL) method was employed to perform a numerical simulation of the FSW process. Combined with related experiments, it was discovered that the instability of temperature and axial force leads to the characteristic transition from tunnel defects to void defects during the non-steady-stage. Furthermore, the length of the non-steady-stage was found to be 30 mm, and its duration is influenced by the welding conditions. Tensile tests have confirmed that the welding quality of the remaining part, after removing the keyhole at the weld’s end, is reliable.
ISSN:0167-577X
1873-4979
DOI:10.1016/j.matlet.2024.136592