Influence of Al2O3 addition on microstructure, defects level and magnetic properties of LiTiZn ferrite ceramics

“…We emphasize that in the case of Al2O3 adding, a different character of the temperature dependence transformation is observed, at which maximum with an increase in concentration to 0.5 wt.% shifts monotonically from the Curie point. In the case of both types of additives, a similar decrease in the maxima of the experimental temperature dependencies with an increase in the concentration of diamagnetic additives is observed [27].…”

“…The other parameters do not change significantly with an increase in the ZrO2 additive concentration. Compared to the results of the Al2O3 adding to LiTiZn ferrite, the ZrO2 addition also causes a similar increase in the defect structure β/α and a reduction of µmax, but the character of the change in the position of the peak on the temperature scale Tm is different [27]. As it can be seen from the Table 2, the Tm first falls with an increase in the ZrO2 concentration up to 0.25 wt.% (shifts from the Curie point), and then sharply increases (a jump to the Curie point) with an increase in the ZrO2 concentration to 0.5 wt.%.…”

“…The Curie point increases by more than 10 degrees if the ZrO2 concentration is 0.75 wt.% and above. This indicates the effect of additives on the chemical composition of ferrites [27].…”

“…In this case, the micro-strain is practically independent of this parameter. Emphasize that the nature of the effect of ZrO2 additive on the X-ray structural parameters differs significantly from the previously discovered effect of Al2O3 additive on ferrite ceramics of the same composition [27].…”

Impact of ZrO2 additive on the microstructure, magnetic properties, and temperature dependence of the initial permeability of LiTiZn ferrite ceramics

“…We emphasize that in the case of Al2O3 adding, a different character of the temperature dependence transformation is observed, at which maximum with an increase in concentration to 0.5 wt.% shifts monotonically from the Curie point. In the case of both types of additives, a similar decrease in the maxima of the experimental temperature dependencies with an increase in the concentration of diamagnetic additives is observed [27].…”

“…The other parameters do not change significantly with an increase in the ZrO2 additive concentration. Compared to the results of the Al2O3 adding to LiTiZn ferrite, the ZrO2 addition also causes a similar increase in the defect structure β/α and a reduction of µmax, but the character of the change in the position of the peak on the temperature scale Tm is different [27]. As it can be seen from the Table 2, the Tm first falls with an increase in the ZrO2 concentration up to 0.25 wt.% (shifts from the Curie point), and then sharply increases (a jump to the Curie point) with an increase in the ZrO2 concentration to 0.5 wt.%.…”

“…The Curie point increases by more than 10 degrees if the ZrO2 concentration is 0.75 wt.% and above. This indicates the effect of additives on the chemical composition of ferrites [27].…”

“…In this case, the micro-strain is practically independent of this parameter. Emphasize that the nature of the effect of ZrO2 additive on the X-ray structural parameters differs significantly from the previously discovered effect of Al2O3 additive on ferrite ceramics of the same composition [27].…”

Impact of ZrO2 additive on the microstructure, magnetic properties, and temperature dependence of the initial permeability of LiTiZn ferrite ceramics

Effect of compressive mechanical stress on the magnetic properties of LiTiZn ferrite ceramics

Chemical homogeneity, microstructure and magnetic properties of LiTiZn ferrite ceramics doped with Al2O3 or ZrO2