The paper deals ìwith the induction heating of metal billets rotating in a DC magnetic field. This innovative technology appears to be very promising for improving the efficiency of the through heating of high conductivity metals (e.g. copper, aluminum) before hot working, by using superconducting magnets. In the paper the induced power distributions are analysed and the main heating parameters are estimated with reference to an infinitely long aluminum billet 200 mm diameter. The paper refers to the activity developed in the frame of a NationalItalian Project carried out by research groups of the Universities of Bologna, Padua and Roma "La Sapienza". Other results obtained for the power distributions in finite length billets and the optimization of the exciting coils are presented in separate papers.
ELECTROMAGNETIC AND THERMAL ANALYSIS OF THE INDUCTION HEATING ALUMINUM BILLETS ROTATING IN DC MAGNETIC FIELD / Geri, Alberto; Araneo, Rodolfo; Dughiero, F; Fabbri, M; Forzan, M; Morandi, A; Lupi, S; RIBANI P., L; Veca, Giuseppe Maria. - STAMPA. - (2007), pp. 487-496. (Intervento presentato al convegno Heating by Electromagnetic Sources tenutosi a Padova nel 19 - 22 Giugno 2007).
ELECTROMAGNETIC AND THERMAL ANALYSIS OF THE INDUCTION HEATING ALUMINUM BILLETS ROTATING IN DC MAGNETIC FIELD
GERI, Alberto;ARANEO, Rodolfo;VECA, Giuseppe Maria
2007
Abstract
The paper deals ìwith the induction heating of metal billets rotating in a DC magnetic field. This innovative technology appears to be very promising for improving the efficiency of the through heating of high conductivity metals (e.g. copper, aluminum) before hot working, by using superconducting magnets. In the paper the induced power distributions are analysed and the main heating parameters are estimated with reference to an infinitely long aluminum billet 200 mm diameter. The paper refers to the activity developed in the frame of a NationalItalian Project carried out by research groups of the Universities of Bologna, Padua and Roma "La Sapienza". Other results obtained for the power distributions in finite length billets and the optimization of the exciting coils are presented in separate papers.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.