Enhanced piezoelectric properties near the morphotropic phase boundary in lead-free (1-x)(Bi<inf>0.5</inf>K<inf>0.5</inf>)TiO<inf>3</inf>-xBi(Ni<inf>0.5</inf>Ti<inf>0.5</inf>)O<inf>3</inf>ceramics
© 2015 Elsevier B.V. Lead-free piezoelectric ceramics of the composition (1-x)(Bi 0.5 K 0.50 )TiO 3 -xBi(Ni 0.50 Ti 0.50 )O 3 or (1-x)BKT-xBNiT (when x = 0-0.20 mol fraction) were prepared by a conventional mixed-oxide method and sintered at 1050 °C for 4 h. The effects of BNiT content on the phase...
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| Main Authors: | , , , , |
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| Format: | Journal |
| Published: |
2018
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| Subjects: | |
| Online Access: | https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84942985697&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/44109 |
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| Institution: | Chiang Mai University |
| Summary: | © 2015 Elsevier B.V. Lead-free piezoelectric ceramics of the composition (1-x)(Bi 0.5 K 0.50 )TiO 3 -xBi(Ni 0.50 Ti 0.50 )O 3 or (1-x)BKT-xBNiT (when x = 0-0.20 mol fraction) were prepared by a conventional mixed-oxide method and sintered at 1050 °C for 4 h. The effects of BNiT content on the phase equilibria, and the dielectric, ferroelectric and piezoelectric properties were systematically investigated. High density sintered specimens (5.71-6.12 g/cm 3 ) were obtained for all compositions. X-ray diffraction patterns showed that all BKT-BNiT samples exhibited a single perovskite phase which confirms that BNiT and BKT formed a solid solution up to x = 0.20. A morphotropic phase boundary (MPB) separating a BKT-rich tetragonal phase and a BNiT pseudo-cubic phase was identified over the compositional range 0.05 < x < 0.10, where enhanced electrical properties were observed. The optimum dielectric properties (ε r = 1710, tanδ = 0.036), ferroelectric properties (P r = 16.6 μC/cm 2 , E c = 22.5 kV/cm and R sq = 0.86) and piezoelectric properties (d 33 = 288 pC/N, S max = 0.22% and d∗ 33 = 313 pm/V) were observed with a relatively high T m ∼ 304 °C within this MPB region. Overall, these results indicate that the BKT-BNiT ceramic system is a promising lead-free piezoelectric candidate for further development for actuator applications. |
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