Bulk anisotropic composite magnets based on MnBi/Co(Fe) exhibiting the different morphology of the soft magnetic phase were prepared by powder metallurgy processing. First, single-phase MnBi bulk magnets were produced using a maximum energy product [(BH)m] of 6.3 MGOe at room temperature. The nanoscale soft phase with the different morphology was then added to form a composite magnet. It was observed that addition of magnetic soft-phase nanoparticles and nanoflakes causes a dramatic coercivity reduction. However, the addition of soft magnetic phase nanowires enhanced the composite magnetization without sacrificing the coercivity. Nevertheless, a kink was still observed on the demagnetization curves and the coercivity decreased when the soft-phase content was larger than 10 wt. %, which was caused by the agglomeration of the soft phase nanowires that also led to a decreased degree of texture.
Revised: March 19, 2015 |
Published: March 13, 2014
Citation
Ma Y., X. Liu, K. Gandha, N.V. Vuong, Y.B. Yang, J. Yang, and N. Poudyal, et al. 2014.Preparation and Magnetic Properties of MnBi-based Hard/Soft Composite Magnets.Journal of Applied Physics 115, no. 17:Article No. 17A755.PNNL-SA-98447.doi:10.1063/1.4868078