Approach to improve the efficiency of flux concentrator materials
In the manufacturing industry, there are many processes that are very energy-intensive. These include processes in which electromagnetic fields are transmitted. The efficiency that can be achieved depends, among other things, on the frequency, but also on the use of so-called field concentrators. For applications with higher frequencies, however, there are currently no satisfactory field concentrator materials. The aim of this work is to develop a composite field concentrator material based on simulations and experiments, which meets the partly contradictory requirements.
Authors | Christian Krause, Simone Schrempp, Hans-Georg Enkler, Alexander Filbert, Dirk Schlesselmann, Maximilian Schaudig, Tobias Lorenz |
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Publishing Date | 9 May 2022 |
Format | |
Publisher | Vulkan-Verlag GmbH |
Language | English |
Title | Approach to improve the efficiency of flux concentrator materials |
Description | In the manufacturing industry, there are many processes that are very energy-intensive. These include processes in which electromagnetic fields are transmitted. The efficiency that can be achieved depends, among other things, on the frequency, but also on the use of so-called field concentrators. For applications with higher frequencies, however, there are currently no satisfactory field concentrator materials. The aim of this work is to develop a composite field concentrator material based on simulations and experiments, which meets the partly contradictory requirements. |