The effects of Thermoelectric Magnetohydrodynamics in directional solidification under a transverse magnetic field

The mechanism of macrosegregation and modification to dendrite size and spacing from a transverse magnetic field has been modelled through direct numerical simulation. The primary driver for this mechanism was identified as a strong Lorentz force formed in the interdendritic region, which leads to a large scale flow circulation. The microstructure evolution is modified by convective transport of solute and the predicted morphological features compare favourably to experimental data in the literature. The numerical results also give an insight into the magnitude of flow velocities within the interdendritic region. •Resolving TEMHD in interdendritic region in directional solidification.•Computational model of macrosegregation through TEMHD mass transport.•Favourable comparison to experimental results.