Numerical Simulation of the Laser Welding Process for Electrical Steel Laminations

Ziegler M, Brandl F, Franke J, Kühl A (2022)


Publication Type: Conference contribution

Publication year: 2022

Publisher: Institute of Electrical and Electronics Engineers Inc.

Conference Proceedings Title: 2022 12th International Electric Drives Production Conference, EDPC 2022 - Proceedings

Event location: Virtual, Online, DEU

ISBN: 9781665454032

DOI: 10.1109/EDPC56367.2022.10019752

Abstract

Soft magnetic cores in electric machines conduct and enhance the magnetic flux. The magnetic properties of the single sheets are mainly influenced by the alloying elements, the microstructure and the rolling and annealing process. To reduce eddy current losses during operation, soft magnetic cores are laminated. However, all manufacturing processes and the further assembling steps, like mounting of the stator, change the magnetic properties of the stack. Laser welding is a common method for producing lamination stacks, as very thin sheets can be welded automatically with high velocities. However, the weld seams are electrically conductive connections, which lead to an increase in eddy current losses. Furthermore, the microstructure in the heat-affected zone is impaired, which leads to a higher demand for magnetization and increased hysteresis losses. A main reason for this is the magneto-mechanical effect, as mechanical stresses influence the magnetic properties. For improvement, the process parameters must be adapted to the specific material system and the requirements. In this paper, a numerical simulation model for visualizing and optimizing the heat distribution in welded electrical steel laminations is presented. The main objective is the analysis of the weld dimension for different welding parameters. For this purpose, a transient thermal analysis is carried out with Ansys Workbench. The welding process is mapped in a simplified way with a moving heat source for different conditions. To validate the results, a comparison to experimental tests is applied. In this way, the simulation results are verified and potential sources of errors are identified.

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How to cite

APA:

Ziegler, M., Brandl, F., Franke, J., & Kühl, A. (2022). Numerical Simulation of the Laser Welding Process for Electrical Steel Laminations. In 2022 12th International Electric Drives Production Conference, EDPC 2022 - Proceedings. Virtual, Online, DEU: Institute of Electrical and Electronics Engineers Inc..

MLA:

Ziegler, Marco, et al. "Numerical Simulation of the Laser Welding Process for Electrical Steel Laminations." Proceedings of the 12th International Electric Drives Production Conference, EDPC 2022, Virtual, Online, DEU Institute of Electrical and Electronics Engineers Inc., 2022.

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