In the present paper, two simulation strategies for tube induction welding process are presented. Coupled electromagnetic and thermal problem is solved by applying three-dimensional FEM models. The resulting power density and temperature distribution are compared. Reported strategies can be used to design tube induction welding devices and to verify the influence of the main parameters of the process, i.e. welding velocity, frequency, specific and total power.

A 3D numerical fem model for the simulation of induction welding of tubes

M. Forzan;E. Sieni
2010-01-01

Abstract

In the present paper, two simulation strategies for tube induction welding process are presented. Coupled electromagnetic and thermal problem is solved by applying three-dimensional FEM models. The resulting power density and temperature distribution are compared. Reported strategies can be used to design tube induction welding devices and to verify the influence of the main parameters of the process, i.e. welding velocity, frequency, specific and total power.
2010
Proceedings of the International Symposium on Heating by Electromagnetic Sources
9788889884133
International Symposium on Heating by Electromagnetic Sources (HES 2010)
Padova, Italy
May 19-21, 2010
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/2077326
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