Study on Laser Welding of Dissimilar Materials between Aluminum and Copper (Ⅰ) - Research Trend in Laser Welding Technology and Materials Testing Methods -

Kim, Yong; Jeong, Su Jin; Yun, Seong Min; Lee, Je In

doi:10.5781/jwj.2022.40.5.7

“…Upon observing the cross-sections of the weld joints, no cracks were observed, but porosity was detected at the interface on the Al side. It is assumed that the fast welding speed and solidification speed, characteristic of laser welding, prevented hydrogen emission, resulting in porosity at the interface [18]. Additionally, it was confirmed that the higher amount of upper sheet Al melting was due to the different melting points of the two base materials [16,17].…”

Section: Bead Profiles According To Pitchesmentioning

confidence: 91%

A study on the mechanical and electrical performance of Al/Cu laser multi-seam welded joints

Yoon,

Eun,

Bang

2024

Int J Adv Manuf Technol

0

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Aluminum alloy and copper used in lithium-ion batteries have low absorption and high reflectivity, so it is difficult to obtain stable joint strength when laser welding is applied. In order to overcome problems, this study has applied multi-seam weld to increase joint area of welded joints. An AA1050-H18 and C11020P sheets with a thickness of 0.5 mm were welded by 2 kW fiber laser welding. Effect of the welding parameters of pitch (0, 1, 4, 8 mm) on weldability in welded joints has been investigated. As the pitch of multi-seam increased, the tensile-shear load tended to increase. The maximum tensile-shear load in the multi-seam weld of pitch 8 mm was 1.25 kN, which was about 108% compared to the single-weld seam 0.6 kN. In addition, the minimum electrical resistance was 77 μΩ at the pitch of 8 mm, which decreased by approximately 49% compared to 115 μΩ of single seam welding. It is thought because resistance reduction caused by be changed from serial to parallel in multi-seam welding.

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A Study on the mechanical and electrical performance of Al/Cu laser multi-seam welded joints

Yoon,

Eun,

Bang

2023

Preprint

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Aluminum alloy and copper used in lithium-ion batteries have low absorption and high reflectivity, so it is difficult to obtain stable joint strength when laser welding is applied. In order to overcome problems, this study has applied multi-seam weld to increase joint area of welded joints. An AA1050-H18 and C11020P sheets with a thickness of 0.5 mm were welded by 2 kW fiber laser welding. Effect of the welding parameters of pitch (0, 1, 4, 8 mm) on weldability in welded joints has been investigated. As the pitch of multi-seam increased, the tensile-shear load tended to increase. The maximum tensile-shear load in the multi-seam weld of pitch 8 mm was 1.25 kN, which was about 108% compared to the single-weld seam 0.6 kN. In addition, the minimum electrical resistance was 77 μΩ at the pitch of 8 mm, which decreased by approximately 49% compared to 115 μΩ of single seam welding. It is thought because resistance reduction caused by be changed from serial to parallel in multi-seam welding.

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A Weldment Characteristics on Laser Welding of 2XXX Aluminum Alloys

Lee¹

2023

J Weld Join

1

0

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In the aerospace industry, high-strength heat-treated aluminum alloys are increasingly being used for large wing structures, which are typically designed by welding thin skins to a pocketed frame structure to reduce weight. Owing to the limited welding area between the frame and the skin and the limited space in the chamber, laser welding is the most suitable manufacturing process. Therefore, the weld-ability and the strength of laser-welded aluminum frame-skin structure must be determined. In this study, AA2219 of the A2XXX alloy series was tested under various welding conditions. Analysis of the bead shape in the cross-section of the welded frame?skin revealed that the optimal welding conditions can be achieved when the ratio of the bead width to penetration (L/H) is minimal. The weld-ability of AA2219 was compared to that of AA2024 by examining the 1) spatter and porosity, 2) hardness in the heat-affected zone, and 3) tensile strength of the two alloys welded under the determined optimal welding conditions. The tensile strength of laser-welded AA2219 and AA2024 was 79% and 70% of that of the base material, respectively. Because the tensile strength value of the welded AA2219 was nearly equal to the yield strength value of the base material, the AA2219 laser-beam welding process can be applied to large wing structures.

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Study on Laser Welding of Dissimilar Materials between Aluminum and Copper (Ⅰ) - Research Trend in Laser Welding Technology and Materials Testing Methods -

Cited by 6 publications

References 49 publications

A study on the mechanical and electrical performance of Al/Cu laser multi-seam welded joints

A study on the mechanical and electrical performance of Al/Cu laser multi-seam welded joints

A Study on the mechanical and electrical performance of Al/Cu laser multi-seam welded joints

A Weldment Characteristics on Laser Welding of 2XXX Aluminum Alloys

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