Sintering of Lithium Zinc Ferrites with Alkoxide‐Derived Borosilicate Liquid Phase

Abstract

Lithium zinc ferrites (Li_0.3Zn_0.4Mn_0.05Fe_2.25O₄) of > 97% theoretical density were prepared with alkoxide‐derived borosilicate sintering additive. A sol‐gel technique was used to incorporate the borosilicate phase prior to sintering. The effects of borosilicate composition and additive quantity on microstructural development and densification are reported. Direct current resistivity, dynamic hysteresis, and microwave property data are discussed in terms of processing parameters and resultant microstructures. The microstructure of the sintered ferrites was analyzed using SEM and TEM. Heterogeneities including regions of liquid‐phase coalescence and intragranularly included glass phase were observed in some cases. These microstructural features were shown to have deleterious effects on microwave magnetic properties when compared to those of commercial ferrites of the same nominal composition sintered with Bi₂O₃ additive.