Numerical simulations of fluid flow during electromagnetic stirring of metals

Authors: Teodorescu, S.G., Dupac, M., Bakhtiyarov, S.I. and Overfelt, R.A.

Volume: 255

Pages: 159-163


In this paper we propose a new relationship between the opposing mechanical torque and the electric conductivity of a rotating liquid specimen in a permanent external magnetic field of constant induction. It is shown that the proposed relationship describes the experimental data for a rotating specimen better than Braunbeck formula derived under the assumption that a magnetic field rotates around a stationary metal sample.

Source: Scopus

Numerical Simulations of Fluid Flow During Electromagnetic Stirring of Metals

Authors: Teodorescu, S.G., Dupac, M., Bakhtiyarov, S. and Overfelt, R.A.

Volume: 254

Publisher: ASME

Source: Manual

Preferred by: Mihai Dupac