Prior to its use for microwave absorption, a hard ferrite was synthesized and characterized. A mixture of iron oxide (Fe2O3) and barium carbonate (BaCO3) was milled using the mechanical alloying technique and sintered at a temperature of 900ºC for 10 hours to form barium hexaferrite (BaFe12O19). X-ray diffractometry (XRD), vibrating sample magnetometry (VSM) and scanning transmission electron microscopy (STEM) were used to investigate the crystalline phase formation, the material’s magnetic hysteresis-loop properties and particle size respectively. From the XRD results it is shown that at 900ºC the full phase of barium hexaferrite was formed. The VSM result shows that at a temperature as low as 900ºC, the saturation magnetization can achiev...
Substituted barium hexaferrite nanoparticles with nominal composition of BaCo1.0Ti1.0Fe10O19 and BaM...
Polycrystalline M-type barium hexaferrite (BaFe<sub>12</sub>O<sub>19</sub>) samples have been synthe...
The magnetic and electromagnetic wave absorbing properties of the Co–Mn–Ti substituted barium ferrit...
Prior to its use for microwave absorption, a hard ferrite was synthesized and characterized. A mixtu...
Ferrite is widely known as a material which is used as hard magnet for various applications such for...
Magnetic materials can be regarded now as being indispensable in modern technology. They are compone...
The syntheses of BaFe11.6Mg0.2Al0.2O19 with calcination temperature variations of 900, 1050, and 120...
The present paper describes our results on the phase transformation (from crystalline to amorphous)...
Stoichiometric and single-phase barium hexaferrite (BaM) has been synthesized by co-precipitation an...
This research highlights the structural magnetic and microwave properties of nanoparticles of M-type...
Polycrystalline M-type barium hexaferrite (BaFe12O19) samples have been synthesized by solution comb...
Bayum hexaferrites are anisotropic iron oxides which can present high values of permeability. We hav...
Bayum hexaferrites are anisotropic iron oxides which can present high values of permeability. We hav...
The substitution of x(Ti-Co) for 2x Fe cations reduces the strong axial anisotropy of the BaM-hexafe...
Preparing M-type barium hexaferrite and improving the magnetic response of natural ferrites by incor...
Substituted barium hexaferrite nanoparticles with nominal composition of BaCo1.0Ti1.0Fe10O19 and BaM...
Polycrystalline M-type barium hexaferrite (BaFe<sub>12</sub>O<sub>19</sub>) samples have been synthe...
The magnetic and electromagnetic wave absorbing properties of the Co–Mn–Ti substituted barium ferrit...
Prior to its use for microwave absorption, a hard ferrite was synthesized and characterized. A mixtu...
Ferrite is widely known as a material which is used as hard magnet for various applications such for...
Magnetic materials can be regarded now as being indispensable in modern technology. They are compone...
The syntheses of BaFe11.6Mg0.2Al0.2O19 with calcination temperature variations of 900, 1050, and 120...
The present paper describes our results on the phase transformation (from crystalline to amorphous)...
Stoichiometric and single-phase barium hexaferrite (BaM) has been synthesized by co-precipitation an...
This research highlights the structural magnetic and microwave properties of nanoparticles of M-type...
Polycrystalline M-type barium hexaferrite (BaFe12O19) samples have been synthesized by solution comb...
Bayum hexaferrites are anisotropic iron oxides which can present high values of permeability. We hav...
Bayum hexaferrites are anisotropic iron oxides which can present high values of permeability. We hav...
The substitution of x(Ti-Co) for 2x Fe cations reduces the strong axial anisotropy of the BaM-hexafe...
Preparing M-type barium hexaferrite and improving the magnetic response of natural ferrites by incor...
Substituted barium hexaferrite nanoparticles with nominal composition of BaCo1.0Ti1.0Fe10O19 and BaM...
Polycrystalline M-type barium hexaferrite (BaFe<sub>12</sub>O<sub>19</sub>) samples have been synthe...
The magnetic and electromagnetic wave absorbing properties of the Co–Mn–Ti substituted barium ferrit...