Bay, F.Alves, J.2018-07-112018-07-112018-05-14http://hdl.handle.net/2003/3698310.17877/DE290R-18982This paper aims at presenting an efficient computational tool for magnetic pulse forming processes. This too - based on the coupling between the FORGE® thermomechanical solver and an electromagnetic module - is then applied to investigating a test case provided by the I2FG Group for benchmarking purposes. Comparisons carried out between the results obtained using a quasi-static constitutive law with one taking into account the dynamic behaviour of the material emphasize the sensitivity to dynamic material behaviour – and thus the need for carrying out material behaviour identification for strain rates close to the ones experiences by the material in such processes.enmagnetic pulse formingcomputational modellingmaterial Behaviour620670A computational model for magnetic pulse forming processes – Application to a test case and sensitivity to dynamic material behaviourconference contributionElektromagnetisches Pulsschweißenhttp://hdl.handle.net/2003/37036http://hdl.handle.net/2003/37037