Weigelt M, Thoma C, Zheng E, Franke J (2020)
Publication Language: English
Publication Type: Journal article
Publication year: 2020
DOI: 10.1007/s11740-020-00996-3
Open Access Link: https://link.springer.com/article/10.1007/s11740-020-00996-3
Numerous applications of daily life use flat coils, e.g. in the automotive area, in solar technology and in modern kitchens. One common property that all these applications share, is a flat coil made of high-frequency (HF) litz wires. The coil layout and the properties of the HF litz wire influence the winding process and the efficiency of the application. As a result, the HF litz wire must meet the complex technical requirements of the winding process and of the preferred mechanical, electromagnetic and thermal properties of the HF litz wire itself. Therefore, a reasonable configuration and optimization of HF litz wire has been developed with the help of a finite-element-analysis (FEA). In this work, it is first shown that the mechanical behavior of HF litz wire under tensile and bending stress can be simulated. Since the computational effort for modelling an HF litz wire at the single conductor level is hardly manageable, a suitable modelling strategy is developed and applied using geometric analogous models (GAM). By using such a model, HF litz wires can be designed for the specific application and their behavior in a winding process can be predicted.
APA:
Weigelt, M., Thoma, C., Zheng, E., & Franke, J. (2020). Finite‑element‑analysis of the mechanical behavior of high‑frequency litz wire in flat coil winding. Production Engineering. https://dx.doi.org/10.1007/s11740-020-00996-3
MLA:
Weigelt, Michael, et al. "Finite‑element‑analysis of the mechanical behavior of high‑frequency litz wire in flat coil winding." Production Engineering (2020).
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