4.7 Article

Effect of static annealing on superplastic behavior of a friction stir welded Ti-6Al-4V alloy joint and microstructural evolution during deformation

期刊

JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY
卷 130, 期 -, 页码 112-123

出版社

JOURNAL MATER SCI TECHNOL
DOI: 10.1016/j.jmst.2022.05.006

关键词

Friction stir welding; Titanium alloys; Superplasticity; Static annealing; Microstructure

资金

  1. National Natural Science Foundation of China [51601194, 51471171]
  2. Youth Innovation Promotion Association of the Chinese Academy of Sciences [2021193, Y2021061]

向作者/读者索取更多资源

Structural integration is a critical developing direction in the aerospace field. A combination process of friction stir welding, static annealing, and superplastic deformation was proposed to eliminate strain localization during the fabrication of large-scale complex components. The study showed that a fully fine lamellar structure obtained through friction stir welding and the annealing process allowed for uniform superplastic deformation in the entire joint. The microstructures in the base material and the nugget zone tended to become similar equiaxed structures after deformation.
Structural integration is one of the most critical developing directions in the modern aerospace field, in which large-scale complex components of Ti alloys are proposed to be fabricated via the method of welding + superplastic forming. However, the undesired strain localization appeared during superplastic deformation of the entire joint has largely hindered the development of this method. In our study, a combination process of friction stir welding (FSW) + static annealing + superplastic deformation was first time proposed to eliminate severe local deformation. To achieve this result, a fully fine lamellar structure was obtained in the nugget zone (NZ) via FSW, which was totally different from the mill-annealed structure in the base material (BM). After annealing at 900 degrees C for 180 min, the BM and NZ then exhibited the similar elongation of > 500% and similar flow stress at 900 degrees C, 3 x 10(-3) s(-1), which was the precondition for achieving uniform superplastic deformation in the entire joint. Moreover, the different microstructures in the BM and NZ tended to become the similar equiaxed structure after deformation, which was the result of different microstructural evolution mechanisms in the NZ and BM. For the NZ, there was a static and dynamic spheroidization of the fully lamellar structure during the process, which could largely reduce the flow softening of the fully lamellar structure. For the BM, a new view of Langdon-CRSS theory (CRSS, critical resolved shear stress) was proposed to describe the fragmentation of the coarse equiaxed structure, which established the relationship between grain boundary sliding and intragranular deformation during deformation. (C) 2022 Published by Elsevier Ltd on behalf of The editorial office of Journal of Materials Science & Technology.

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