Structural and electrical properties of 〈001〉 textured 0.26PIN–0.40PMN–0.34PT ternary system

Structural and electrical properties of 〈001〉 textured 0.26PIN–0.40PMN–0.34PT ternary system

Lead indium niobate (PIN)—lead magnesium niobate (PMN)—lead titanate (PT) solid solution in the ratio of 0.26PIN–0.40PMN–0.34PT was fabricated by tape-casting in random and   pc textured forms. PIN–PMN–PT was textured using 5 vol% barium titanate templates. The Lotgering factor, f , of 0.26PIN–0.40P...

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Veröffentlicht in:Journal of materials science. Materials in electronics 2019-10, Vol.30 (20), p.18548-18556
Hauptverfasser: Berksoy-Yavuz, Ayse, Mensur-Alkoy, Ebru, Gozutok, Ebru, Dursun, Sinan, Yilmaz, Hüseyin, Alkoy, Sedat
Format: Artikel
Sprache:eng
Schlagworte:
Barium titanates
Characterization and Evaluation of Materials
Chemistry and Materials Science
Curie temperature
Dielectric properties
Electrical properties
Ferroelectric materials
Ferroelectricity
Lead titanates
Magnesium niobates
Materials Science
Optical and Electronic Materials
Piezoelectricity
Solid solutions
Tape casting
Temperature
Ternary systems
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Zusammenfassung:Lead indium niobate (PIN)—lead magnesium niobate (PMN)—lead titanate (PT) solid solution in the ratio of 0.26PIN–0.40PMN–0.34PT was fabricated by tape-casting in random and   pc textured forms. PIN–PMN–PT was textured using 5 vol% barium titanate templates. The Lotgering factor, f , of 0.26PIN–0.40PMN–0.34PT textured ceramics was approximately calculated as 95%. Quenching from above the Curie temperature down to the room temperature was applied to both random and textured samples, which led to drastic increases in the ferroelectric and piezoelectric properties. The Curie temperature, dielectric constant (ε r ), converse piezoelectric charge coefficient (d 33 * ) and piezoelectric voltage constant (g 33 ) of textured and quenched sample were found to be 223 °C, 2455, 1432 pm/V and 27.60 × 10 −3  Vm/N, respectively.
ISSN:0957-4522
1573-482X
DOI:10.1007/s10854-019-02208-w