In this paper Nd-Fe-B ingots with hyper-peritectic composition were prepared through continuous and directional solidification by a novel electromagnetic cold crucible approach.A group of experiments were carried out in order to investigate the effects of input power and withdrawal velocity on the microstructure and growth orientation of Nd-Fe-B phases.It was found that the peritectic Nd_2Fe_(14)B phase grows with a planar interface at lower withdrawal velocity and changed into the dendritic interface at higher withdrawal velocity.The result was explained by the theory of constitutional supercooling.Meanwhile the volume fraction of ferromagnetic T_1 phase was found to be increased first and then decreased with the increasing of withdrawal velocity during the growth process of the ingots. In this paper Nd-Fe-B ingots with hyper-peritectic composition were prepared through continuous and directional solidification by a novel electromagnetic cold crucible approach. A group of experiments were carried out in order to investigate the effects of input power and withdrawal velocity on the microstructure and growth orientation of Nd-Fe-B phases. It was found that the peritectic Nd 2 Fe 14 B phase grows with a planar interface at lower withdrawal velocity and changed into the dendritic interface at higher withdrawal velocity. The result was explained by the theory of constitutional supercooling.Meanwhile the volume fraction of ferromagnetic T_1 phase was found to be increased first and then decreased with the increasing of withdrawal velocity during the growth process of the ingots.