Simulation of the Electro-Magnetic Flux Compression using LS-DYNA Multi-Physics Capability
The Electro-Magnetic Flux Compression system can generate ultra-high magnetic flux over 700 T with an electromagnetically imploded coil and is employedto study electronic physical properties of condensed matterssuch as carbon nano-tubes.Predicting the generation of electro-magnetic flux using computer simulation techniquesrequires electro-magnetic –thermal –structural coupling analysis. Since the electromagnetism (EM) module has been introduced into LS-DYNA starting from Ver. R7.0.0, behaviors associated withthe electro-magnetic forming can be predicted using the LS-DYNA.In this paper, simulation techniquesforthe EM module are studied to predict the generation of electro-magnetic flux in the Electro-Magnetic Flux Compression system.
https://www.dynamore.de/de/download/papers/2015-ls-dyna-europ/documents/sessions-a-5-8/simulation-of-the-electro-magnetic-flux-compression-using-ls-dyna-multi-physics-capability/view
https://www.dynamore.de/@@site-logo/DYNAmore_Logo_Ansys.svg
Simulation of the Electro-Magnetic Flux Compression using LS-DYNA Multi-Physics Capability
The Electro-Magnetic Flux Compression system can generate ultra-high magnetic flux over 700 T with an electromagnetically imploded coil and is employedto study electronic physical properties of condensed matterssuch as carbon nano-tubes.Predicting the generation of electro-magnetic flux using computer simulation techniquesrequires electro-magnetic –thermal –structural coupling analysis. Since the electromagnetism (EM) module has been introduced into LS-DYNA starting from Ver. R7.0.0, behaviors associated withthe electro-magnetic forming can be predicted using the LS-DYNA.In this paper, simulation techniquesforthe EM module are studied to predict the generation of electro-magnetic flux in the Electro-Magnetic Flux Compression system.
01-Takekoshi-Terrabyte-P.pdf
— 1.0 MB