The influence of the rotating magnetic field (RMF) on the solidification proc- ess of Pb-Sn binary alloys is studied by comparing the solidification microstructures under the common condition and RMF condition. It is ...The influence of the rotating magnetic field (RMF) on the solidification proc- ess of Pb-Sn binary alloys is studied by comparing the solidification microstructures under the common condition and RMF condition. It is found that the RMF can completely elimi- nate the gravity induced macrosegregation, and result in dendrite fragmentation and promote solute diffusion velocity. These differences are regarded as the effect of compli- cated melt flow caused by RMF. Moreover, when the content of the primary phase is small, many spherical microstructures form under the RMF condition. The analyses indicate that these special microstructures are likely the conjunction action of melt flow and concentra- tion and temperature field uniformity caused by RMF.展开更多
基金supported by the National Natural Science Foundation of China(Grant Nos.50331040 and 60171034).
文摘The influence of the rotating magnetic field (RMF) on the solidification proc- ess of Pb-Sn binary alloys is studied by comparing the solidification microstructures under the common condition and RMF condition. It is found that the RMF can completely elimi- nate the gravity induced macrosegregation, and result in dendrite fragmentation and promote solute diffusion velocity. These differences are regarded as the effect of compli- cated melt flow caused by RMF. Moreover, when the content of the primary phase is small, many spherical microstructures form under the RMF condition. The analyses indicate that these special microstructures are likely the conjunction action of melt flow and concentra- tion and temperature field uniformity caused by RMF.