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Low-loss and high-thermal-stability ultralow-dielectric-constant microwave dielectric ceramic LiCaEuV2O8
Disclosed are low-loss and high-thermal-stability ultralow-dielectric-constant microwave dielectric ceramic LiCaEuV2O8 and a preparation method thereof. The preparation method includes the following steps: (1) preparing the following materials according to the composition of the LiCaEuV2O8: raw powders of Li2CO3, CaCO3, Eu2O3 and V2O5, which are higher than 99.9% in purity by weight percentage ratio; (2) performing wet-method ball milling to the raw materials for 12 h to mix the raw materials with distilled water as a ball milling medium, drying the mixture, and pre-burning the mixture at 800 DEG C under atmosphere for 6 h; (3) adding an adhesive to the powder produced in the step (2), performing granulation, press-moulding the mixture, and sintering the mixture at 850-900 DEG C under atmosphere for 4 h, wherein the adhesive is a polyvinyl alcohol solution being 5% in mass concentration and the addition quantity of the polyvinyl alcohol is 3% of the total weight of the powders. The ceramic is excellently sintered at lower than 900 DEG C, reaches 17.3-18.2 in dielectric constant, reaches 116000-148000 GHz in quality factor Qf and is lower in temperature coefficient of resonance frequency. The ceramic has great application value in industry.
Low-loss and high-thermal-stability ultralow-dielectric-constant microwave dielectric ceramic LiCaEuV2O8
Disclosed are low-loss and high-thermal-stability ultralow-dielectric-constant microwave dielectric ceramic LiCaEuV2O8 and a preparation method thereof. The preparation method includes the following steps: (1) preparing the following materials according to the composition of the LiCaEuV2O8: raw powders of Li2CO3, CaCO3, Eu2O3 and V2O5, which are higher than 99.9% in purity by weight percentage ratio; (2) performing wet-method ball milling to the raw materials for 12 h to mix the raw materials with distilled water as a ball milling medium, drying the mixture, and pre-burning the mixture at 800 DEG C under atmosphere for 6 h; (3) adding an adhesive to the powder produced in the step (2), performing granulation, press-moulding the mixture, and sintering the mixture at 850-900 DEG C under atmosphere for 4 h, wherein the adhesive is a polyvinyl alcohol solution being 5% in mass concentration and the addition quantity of the polyvinyl alcohol is 3% of the total weight of the powders. The ceramic is excellently sintered at lower than 900 DEG C, reaches 17.3-18.2 in dielectric constant, reaches 116000-148000 GHz in quality factor Qf and is lower in temperature coefficient of resonance frequency. The ceramic has great application value in industry.
Low-loss and high-thermal-stability ultralow-dielectric-constant microwave dielectric ceramic LiCaEuV2O8
FANG LIANG (author) / TANG YING (author) / FANG WEISHUANG (author)
2016-01-13
Patent
Electronic Resource
English
IPC:
C04B
Kalk
,
LIME
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