Fig 8 - uploaded by Tudorache Tiberiu
Content may be subject to copyright.
Source publication
This paper presents a multi-physics model able to analyze the heating of metallic billets by rotation in DC magnetic fields. The finite element solution of time dependent electromagnetic and thermal fields taking into account the rotating motion is associated with step by step in time domain method.
Context in source publication
Context 1
... respectively after 306.26 seconds, the induced power has the value 24.48 kW, the electromagnetic torque 544.36 Nm, the temperature field of the billet cover the range [570.5, 645.1] C and the thermal losses are 6.945 kW. At the moment t = 300 s, the charts of the magnetic flux density in the axial and transversal symmetry planes are presented in Fig. 8, the charts of the induced currents are presented in Fig. 9, the charts of the induced power are presented in Fig. 10, and the chart of billet temperature in Fig. ...
Similar publications
Two layered magnetic Bethe lattice with varying coordination number q is
introduced and numerically studied via exact recursion relations within
a pairwise approach. The system is influenced by competing interlayer
and intralayer nearest-neighbour (NN) coupling interactions and also by
the crystal and external magnetic fields. Cases where both laye...
This paper presents a multi-physics model able to analyze the heating of metallic billets by rotation in DC magnetic fields. The finite element solution of time dependent electromagnetic and thermal fields taking into account the rotating motion is associated with step by step in time domain method.
Tunnel magnetoresistance (TMR) can measure weak magnetic fields and has significant advantages for use in alternating current/direct current (AC/DC ) leakage current sensors for power equipment; however, TMR current sensors are easily perturbed by external magnetic fields, and their measurement accuracy and measurement stability are limited in comp...
