Abstract
Abstract
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.
Publisher
Research Square Platform LLC
Reference19 articles.
1. Continuous laser welding with spatial beam oscillation of dissimilar thin sheet materials (Al-Cu and Cu-Al): Process optimization and characterization;Dimatteo V;J Manuf Processes No,2019
2. The influence of laser pulse shape and separation distance on dissimilar welding of Al and Cu films;Lerra F;J Manuf Processes No,2019
3. Lee SS, Kim TH, Hu SJ, Cai WW, Abell JA (2010) “Joining technologies for automotive lithium-ion battery manufacturing: A review.” International Manufacturing Science and Engineering Conference, Vol. 49460, pp. 541–549,
4. Automotive battery pack manufacturing–a review of battery to tab joining;Zwicker MFR;J Adv Join Processes,2020
5. Joining technologies for automotive battery systems manufacturing;Das A;World Electr Veh J,2018