Magnetic properties and microstructural homogeneity in NdFeAl bulk metallic glasses

Abstract

AbstractBulk metallic glasses of nominal composition Nd60Fe30Al10 were prepared by copper mold casting in the form of rods of 3 mm in diameter and 50 mm in length. Preparation conditions were varied to assess the effects of the injection distance and the injection pressure of the melt. In order to determine their microstructure, disk‐shaped samples were obtained from different cut zones along the axis rod. A non‐homogeneous phase distribution was observed, which resulted from the heat transfer regime during the cooling of the melt in the copper mold. As expected, the nature, distribution and volumetric fraction of the various phases produced play an important role on the resulting magnetic properties. Among the main observed phases are Fe‐rich rod‐like crystals, Nd‐rich dendritic crystals and a “like‐amorphous” matrix. The hard magnetic properties of these materials can be associated with this matrix. In these cooling regimes, the coercive field increases as the cooling rate of the amorphous matrix increases. Hysteresis loops showed a high degree of coupling between phases with different magnetic order. Both the coercive field and the magnetization showed a significant variation along the rod axis; a maximum appeared as a function of the axis length. In order to gather more information about the coupling between the observed phases, δM (or Henkel) plots were obtained, showing an exchange character for interactions (© 2011 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)