Numerical analysis of high strain rate failure of electro-magnetically loaded steel sheets
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Date
2015-09-07Type
- Conference Paper
ETH Bibliography
yes
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Abstract
Electro-magnetic forces provide a potentially power full means in designing dynamic experiments with active control of the loading conditions. This article deals with the development of computational models to simulate the thermo-mechanical response of electro-magnetically loaded metallic structures. The model assumes linear electromagnetic constitutive equations and time-independent electric induction to estimate the Joule heating and the Lorentz forces. The latter are then taken into account when evaluating stress equilibrium. A thermo-visco-plastic model with Johnson-Cook type of temperature and strain rate dependence and combined Swift-Voce hardening is used to evaluate the material's thermo-mechanical response. As a first application, the model is used to analyse the effect of electro-magnetic loading on the ductility of advanced high strength steels. Show more
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https://doi.org/10.3929/ethz-b-000114765Publication status
publishedExternal links
Editor
Journal / series
EPJ Web of ConferencesVolume
Pages / Article No.
Publisher
EDP SciencesEvent
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ETH Bibliography
yes
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