Exchange-coupling interaction and effective anisotropy of NdFeB nanocomposite permanent magnetic materials

Taking Nd2Fe14B/αFe as a typical sample and adopting the cubic grain modelwe investigated the exchange-coupling interaction between different magnetic grains and the effective anisotropy of nanocomposite permanent materials in this paper . The effective anisotropy of nanocomposite permanent materials, Keff, is equal to statistical mean values of the effective anisotropy of magnetically soft and hard grains. Every grain's anisotropy is determined by the anisotropy constants of the coupled part at grain boundaries and the internal uncoupled part. The ca lculated results reveal that the distributions of soft and hard grain sizes influence th e effective anisotropy. When the sizes of magnetically soft and hard grains are identical, the effective anisotropy decreases with the reduction of grain size a nd hard phase component, and decreases rapidly while the grain size is less than 20nm. When the soft-grain sizes are of some definite values, Keff shows a maximum value with the variation of the hard-grain size. The hard-grain s izes corre spo nding to the maximum of Keffdecrease with the increase of soft phase components and the reduction of softgrain sizes. The grain size dependence ofKeffis bas ically similar to that of coercivity. The decrement of coercivity for nanoco m posite permanent materials is mainly due to the reduction of effective anisotrop y.