Simulation of the Electromagnetic 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.
https://www.dynalook.com/conferences/10th-european-ls-dyna-conference/7%20Simulation%20I%20-%20Multiphysics/01-Takekoshi-Terrabyte-P.pdf/view
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Simulation of the Electromagnetic 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.
01-Takekoshi-Terrabyte-P.pdf
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