Abstract
A high- Q low firing ceramics material was fabricated from a composite of 80 wt% of BaTi 4O 9 powder and 20 wt% of B 2O 3–ZnO–La 2O 3 glass flux. The sample sintered at 900 °C for 3 h had the maximum bulk density. B 2O 3–ZnO–La 2O 3 glass was found to act as the sintering aid. The material sintered at 900 °C for 3 h consists of BaTi 4O 9, LaBO 3, an unidentified crystal phase and residual glass phase, and possesses excellent microwave dielectric properties: permittivity k ≈ 27, quality factor Q × f ≈ 20,000 GHz, temperature coefficient of resonant frequency τ f ≈ 6.5 ppm/°C.
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