7075 Aluminum alloy welded by laser-TIG hybrid with homogeneous filler wire: Microstructure evaluation and molten pool behavior

•Laser-TIG hybrid welding by filling Al-Zn-Mg-Cu filler wire was applied to 7075 aluminum alloy sheets.•The ultimate tensile strength of the welded joint was reached approximately 80% of base metal.•Adding homogeneous welding wire could promote the precipitation of the η′ phase and improve the mecha...

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Bibliographic Details
Published inOptics and laser technology Vol. 169; p. 110059
Main Authors Ma, Guangyi, Luo, Xianzhang, Liu, Dehua, Jia, Chen, Niu, Fangyong, Wu, Dongjiang
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2024
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Summary:•Laser-TIG hybrid welding by filling Al-Zn-Mg-Cu filler wire was applied to 7075 aluminum alloy sheets.•The ultimate tensile strength of the welded joint was reached approximately 80% of base metal.•Adding homogeneous welding wire could promote the precipitation of the η′ phase and improve the mechanical properties. 7075 aluminum alloy has poor weldability and low joint quality, which seriously restricts its development. In this work, laser-TIG (tungsten inert gas) hybrid with homogeneous filler wire was adopted to weld 7075 aluminum alloy, and the microstructure evolution and molten pool behavior of the welded joint were mainly studied. The microstructure of the weld zone showed twin dendrites with main axis grew along the 〈110〉 direction and the symmetrical plane was {111}. When laser-arc hybrid was applied, the decrease of G × R (from 359.54 K/s to 16.15 K/s), increase of G/R (from 0.14 × 108 (K·s)·m−2 to 4.86 × 108 (K·s)·m−2). The strong convection (0.41 m/s) inside the molten pool jointly promoted the formation of twin dendrites. Furthermore, the ultimate tensile strength (475 ± 11.1 MPa) reached 80 % of the base material. By filling the homogeneous wire, it was possible to homogenize the welded joint, alleviate the loss of Zn, reinforce the precipitation of η′, and enhance the mechanical properties.
ISSN:0030-3992
1879-2545
DOI:10.1016/j.optlastec.2023.110059