Magnetic interaction in spherical barium ferrite particle tape

Abstract

New spherical and conventional hexagonal platelet-shaped barium ferrite (BaFe) particles were dispersed and hand-coated onto polyethylene terephthalate (PET) film. Curves of /spl Delta/M(H), the change of magnetization as a function of magnetic field, were calculated from measurements of the d and r components M/sub d/(H) and M/sub r/(H). This was done to evaluate particle-to-particle magnetic interactions. The oriented platelet-shaped particles showed a large and relatively broad positive /spl Delta/M(H) peak, which develops from particle stacking. The oriented spherical BaFe particles gave completely different /spl Delta/M(H) curves with a much smaller and narrower positive peak, and an equally small and narrow negative peak. The unoriented platelet-shaped BaFe produced /spl Delta/M(H) curves having a small positive peak followed by a small but broader negative peak. This has been explained in terms of randomly oriented stacks. It was suggested that the positive peak develops from particle-to-particle interactions within the stacks, and the negative peak results from interactions between stacks. The unoriented spherical BaFe particle gave a /spl Delta/M(H) curve having a broad negative peak, similar to what is observed with acicular metal particles.