Method for determining reaction rate of mild steel containers during melting of magnesium-aluminium alloys and effect of aluminium content on directionally solidified microstructures

Abstract

A magnesium alloy of eutectic composition (33 wt-%Al) was directionally solidified in mild steel tubes at two growth rates, 32 and 580 μm s−1 in a temperature gradient between 10 and 20 K mm−1. After directional solidification, the composition of each specimen varied dramatically, from 32%Al in the region that had remained solid to 18%Al (32 fim s−1 specimen) and 13%Al (580 (μm s−1 specimen) at the plane that had been quenched from the eutectic temperature. As the aluminium content decreased, the microstructure contained an increasing volume fraction of primary magnesium dendrites and the eutectic morphology gradually changed from lamellar to partially divorced. The reduction in aluminium content was caused by the growth of an Al-Fe phase ahead of the Mg-Al growth front. Most of the growth of the Al-Fe phase occurred during the remelting period before directional solidification. The thickness of the Al-Fe phase increased with increased temperature and time of contact with the molten Mg-Al alloy. IJCMR/455