摘要
The piezoelectric, dielectric, and ferroelectric properties of the (LiCe) co-substituted calcium bismuth niobate (CaBi2Nb209, CBNO) are investigated. The piezoelectric properties of CBNO ceramics are significantly enhanced and the dielectric loss tan 5 decreased. This makes poling using (LiCe) co-substitution easier. The ceramics (where represents A-site Ca2+ vacancies, possess a pure layered structure phase and no other phases can be found. The Cao.ss(LiCe)0.04[]0.04Bi2Nb209 ceramics possess optimal piezoelectric properties, with piezoelectric coefficient (d33) and Curie temperature (Tc) found to be 13.3 pC/N and 960 ℃ respectively. The dielectric and piezoelectric properties of the (LiCe) co-substituted CBNO ceramics exhibit very stable temperature behaviours. This demonstrates that the CBNO ceramics are a promising candidate for ultrahigh temperature applications.
The piezoelectric, dielectric, and ferroelectric properties of the (LiCe) co-substituted calcium bismuth niobate (CaBi2Nb209, CBNO) are investigated. The piezoelectric properties of CBNO ceramics are significantly enhanced and the dielectric loss tan 5 decreased. This makes poling using (LiCe) co-substitution easier. The ceramics (where represents A-site Ca2+ vacancies, possess a pure layered structure phase and no other phases can be found. The Cao.ss(LiCe)0.04[]0.04Bi2Nb209 ceramics possess optimal piezoelectric properties, with piezoelectric coefficient (d33) and Curie temperature (Tc) found to be 13.3 pC/N and 960 ℃ respectively. The dielectric and piezoelectric properties of the (LiCe) co-substituted CBNO ceramics exhibit very stable temperature behaviours. This demonstrates that the CBNO ceramics are a promising candidate for ultrahigh temperature applications.
基金
Project supported by the National Natural Science Foundation of China (Grant Nos. 50632030 and 10804130) and the Shaanxi Provincial Natural Science Foundation, China (Grant No. 2011JM6012).
