Study on Ultra-high Electro-Magnetic Flux Generation using LS-DYNA ® Multi-Physics Capability
Simulation results about two kinds of Electro-Magnetic Flux Generation Methods using LS-DYNA Multi-Physics capability are reported in this paper. It is revealed that the Burgess Model should be considered to model electrical conductivity as functions of relative volume as well as temperature, and that hourglass control type 6 should be used in order to precisely predict the generation of magnetic flux density and the deformation of coil for the methods.
https://www.dynalook.com/conferences/14th-international-ls-dyna-conference/electromagnetic/study-on-ultra-high-electro-magnetic-flux-generation-using-ls-dyna-r-multi-physics-capability/view
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Study on Ultra-high Electro-Magnetic Flux Generation using LS-DYNA ® Multi-Physics Capability
Simulation results about two kinds of Electro-Magnetic Flux Generation Methods using LS-DYNA Multi-Physics capability are reported in this paper. It is revealed that the Burgess Model should be considered to model electrical conductivity as functions of relative volume as well as temperature, and that hourglass control type 6 should be used in order to precisely predict the generation of magnetic flux density and the deformation of coil for the methods.
ThumbDriveOnly4_Electromagnetic_018.pdf