Chinese Journal of Lasers, Volume. 50, Issue 24, 2402102(2023)
Effect of Ti Intermediate Layer Thickness on Microstructure and Mechanical Properties of 7075 Aluminum Alloy by Laser Beam Swing Welding
Figures & Tables(14)
Fig. 1. Schematic diagrams of laser welding and tensile specimens. (a) Diagram of laser swing welding; (b) trajectory of the laser spot; (c) dimension of tensile specimens
Fig. 4. Mapping results of the middle region of the welds added Ti intermediate layer with different thicknesses. (a) Mapping results of the middle region of the weld added 0.03 mm thick Ti intermediate layer; (b) mapping results of the Ti gathering area in the weld added 0.04 mm thick Ti intermediate layer
Fig. 5. XRD results of the welds before and after adding 0.03 mm thick Ti intermediate layer
Fig. 6. IPF images of each weld. (a) Weld added 0.02 mm thick Ti intermediate layer; (b) weld added 0.03 mm thick Ti intermediate layer; (c) weld added 0.04 mm thick Ti intermediate layer
Fig. 7. Microstructure and phases distribution in the weld added 0.03 mm thick Ti intermediate layer. (a)(c) Fine equiaxed region in the middle region; (b)(d) the area near the fusion line on the right
Fig. 8. Tensile properties of the joint added Ti intermediate layer with different thicknesses. (a) Average tensile strength of the joint varying with the thickness of Ti intermediate layer; (b) engineering stress-displacement curve
Fig. 9. Morphology of each joint after tensile failure. (a)(b)(c) Tensile break location; (d)(e)(f) macro morphology of tensile fracture; (g)(h)(i) micro morphology of tensile fracture
Fig. 10. Fracture morphology captured at back scattering mode. (a)‒(c) Tensile break location; (d)‒(i) micro morphology of tensile fracture
Fig. 11. Mapping results of the fusion zone in the tensile fracture of the joint added 0.02 mm thick Ti intermediate layer
Table 1. Chemical composition list of base metal
View tableTable 1. Chemical composition list of base metal
Element Mass fraction /% Zn 5.84 Mg 3.47 Cu 1.53 Ti 0.4 Si 0.33 Mn 0.3 Cr 0.25 Al Bal.
Table 2. Melting width parameter list of the weld
View tableTable 2. Melting width parameter list of the weld
Thickness of the Ti intermediate layer /mm Melting width of the upper
part /μm
Melting width of the middle
part /μm
Melting width of the bottom part /μm 0 2018.2 1673.2 1475.8 0.02 2064.9 1664.9 1594.6 0.03 1978.4 1646.0 1567.6 0.04 1981.1 1675.7 1524.3
Table 3. Chemical composition of the cross-shaped phase in the weld added 0.03 mm thick Ti intermediate layer
View tableTable 3. Chemical composition of the cross-shaped phase in the weld added 0.03 mm thick Ti intermediate layer
Element Mass fraction /% Zn 3.61 Mg 0.89 Cu 0.68 Ti 18.30 Al 76.52
Tools
Get Citation
Copy Citation Text
Gaoyang Mi, Yiming Jiang, Chunming Wang, Mingyang Zhang, Qiubao Ouyang. Effect of Ti Intermediate Layer Thickness on Microstructure and Mechanical Properties of 7075 Aluminum Alloy by Laser Beam Swing Welding[J]. Chinese Journal of Lasers, 2023, 50(24): 2402102
Paper Information
Category: Laser Forming Manufacturing
Received: Jun. 2, 2023
Accepted: Jul. 27, 2023
Published Online: Dec. 7, 2023
The Author Email: Mingyang Zhang (hust_myzhang@126.com)
© Copyright 2018-2021 | Chinese Laser Press.
All Rights Reserved 沪ICP备15018463号-20