Characterization of submicrometer-sized NiZn ferrite prepared by spark plasma sintering

Abstract

High-density submicrometer-sized Ni0.5Zn0.5Fe2O4 ferrite ceramics were prepared by spark plasma sintering in conjunction with sufficient high energy ball milling. They were evaluated by different characterization techniques such as X-ray diffraction, scanning electron microscopy, and dielectric and magnetic measurements. All samples prepared at sintering temperatures ranging from 850 to 925°C exhibit a single spinel phase and their relative densities and grain sizes range from 90% to 99% and ~100nm to ~300nm, respectively. The dielectric constant increases with decreasing grain size until ~250nm, and then decreases dramatically with further decreasing grain size. The saturation magnetization increases continuously with increasing grain size/density but the magnetic coercivity decreases. The highest dielectric constant and saturation magnetization at room temperature are approximately 1.0×105 and 84.4emu/g, respectively, while the lowest magnetic coercivity is only around 15Oe. These outstanding properties may be associated with high density and uniform microstructure created by spark plasma sintering. Therefore, the spark plasma sintering is a promising technique for fabricating high-quality NiZn ferrites with high saturation magnetization and low coercivity.