Directional growth behavior of α(Al) dendrites during concentration-gradient-controlled solidification process in static magnetic field

The large and small sized Cu (solid)/Al (liquid) couples were prepared to investigate the directional growth behavior of primary alpha(Al) phase during a concentration-gradient-controlled solidification process under various static magnetic fields (SMFs). The results show that in the large couples, the alpha(Al) dendrites reveal a directional growth character whether without or with the SMF. However, the 12 T magnetic field induces regular growth, consistent deflection and the decrease of secondary arm spacing of the dendrites. In the small couples, the alpha(Al) dendrites still reveal a directional growth character to some extent with a SMF of <= 5 T. However, an 8.8 T SMF destroys the directional growth and induces severe random deflections of the dendrites. When the SMF increases to 12 T, the alpha(Al) dendrites become quite regular despite of the consistent deflection. The directional growth arises from the continuous long-range concentration gradient field built in the melt. The morphological modification is mainly related to the suppression of natural convections and the induction of thermoelectric magnetic convection by the SMF.