Study on the interfacial microstructure evolution of aluminum and CFRTP on FSLW joints: influence of pin length

Polymer/metal hybrid lightweight structures are increasingly employed in automotive, aerospace and electronics industries. Friction stir welding (FSW) is applied for the effective welding of metals and thermoplastic materials. For the welding of dissimilar materials, due to the significant property...

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Bibliographic Details
Published inJournal of adhesion science and technology Vol. 38; no. 12; pp. 2209 - 2221
Main Authors Sun, Yibo, Zhang, Yuan, Long, Haiwei, Zhu, Jianning, Fu, Libin, Yang, Xinhua
Format Journal Article
LanguageEnglish
Published Utrecht Taylor & Francis 17.06.2024
Taylor & Francis Ltd
Subjects
Aerospace industry
Al alloy
Aluminum base alloys
Carbon fiber reinforced plastics
CFRTP
Dissimilar material joining
Electron backscatter diffraction
Fiber reinforced polymers
Friction stir welding
Heat treating
Lap welding
mechanism
pin length
Recrystallization
Tensile strength
Tensile tests
Thermal decomposition
Welded joints
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Summary:Polymer/metal hybrid lightweight structures are increasingly employed in automotive, aerospace and electronics industries. Friction stir welding (FSW) is applied for the effective welding of metals and thermoplastic materials. For the welding of dissimilar materials, due to the significant property differences, it is hard to achieve high strength welded joints with smooth appearance. In this article, the influence of pin length is studied by experiments for the friction stir lap welding (FSLW) of Al alloy and carbon-fiber-reinforced thermoplastic (CFRTP). Tensile tests, OM, SEM and EBSD are carried out to evaluate the welding performance. Results indicate that the joint with smooth surface topography is obtained at the pin length of 2.5 mm with a peak temperature of 250.3 °C and the CFRTP matrix PEI thermal decomposition temperature residence time of 47.6 s. From OM and SEM micro analysis, the width of the bonding area is 3.02 mm and a thin uniform interaction layer is formed in the joint. EBSD confirms that the Al alloy in the stirring zone is refined after recrystallization. It is difficult to form a stacked layered structure in the bottom of joint, so the property of the joint is improved. The tensile strength is 32.9 MPa, which is 63.1% of CFRTP.
ISSN:0169-4243
1568-5616
DOI:10.1080/01694243.2023.2289766