Structural and magnetic properties of Ca-substituted barium W-type hexagonal hexaferrites

Abstract

Abstract A series of W-type hexagonal ferrites with the composition Ba1−xCaxCo2Fe16O27 (x=0, 0.1, 0.3, 0.4 and 0.5) were synthesized using a sol–gel method. The effects of doping on structural and magnetic properties are studied by X-ray diffraction, thermal analyzer, scanning electron microscopy, vibrating sample magnetometer and vector network analyzer, respectively. The X-ray diffraction analysis shows that the samples belong to the W-type hexagonal ferrite. The lattice constants a and c decreases as Ca contents increases. The grains exhibit well defined hexagonal shape. The saturation magnetization and the intrinsic coercive force increases with the increase of the Ca substitution amount. The real part of complex permittivity (e′) and imaginary part (e″) increase with more addition of Ca2+ amount. The imaginary part of complex permittivity (μ′) increases and the real part (μ′′) goes down after Ca2+ is doped. Furthermore, the Ca2+ ions doped in the ferrite improved microwave absorbency.