Autor(en): Blum, H.
Stiemer, M.
Svendsen, B.
Unger, J.
Titel: Fully-coupled 3D Simulation of Electromagnetic Forming
Sprache (ISO): en
Zusammenfassung: Electromagnetic metal forming is a contact-free high-speed forming process in which strain rates of more than 103 s^(-1) are achieved. The deformation of the workpiece is driven by a material body force, the Lorentz force, that results from the interaction of a pulsed magnetic field with eddy currents induced in the workpiece by the magnetic field itself. The purpose of this work is to present a fully-coupled 3D simulation of the process. For the mechanical structure a thermoelastic, viscoplastic, electromagnetic material model is relevant, which is incorporated in a large-deformation dynamic formulation. The evolution of the electromagnetic fields is governed by Maxwell s equations under quasistatic conditions. Their numerical solution in 3D requires particular arrangements due to a reduced regularity at material interfaces. Hence, Nédélec elements are employed. Coupling between the thermomechanical and electromagnetic subsystems takes the form of the Lorentz force, the electromotive intensity, and the current geometry of the workpiece. A staggered scheme based on a Lagrangian mesh for the workpiece and an ALE formulation for the electromagnetic field is utilized to solve the coupled system, guaranteeing the efficiency and accuracy of the data transfer between the two meshes.
Schlagwörter: electromagnetic metal forming
modeling,
viscoplasticity,
URI: http://hdl.handle.net/2003/27072
http://dx.doi.org/10.17877/DE290R-12932
Erscheinungsdatum: 2006
Provinienz: Institut für Umformtechnik - Technische Universität Dortmund
Ist Teil von: 2nd international conference on high speed forming, March 20th - 21st, 2006, Dortmund, Germany
Enthalten in den Sammlungen:ICHSF 2006

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