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08.12.2018

Evolution of ferroelectric and piezoelectric response by heat treatment in pseudocubic BiFeO₃–BaTiO₃ ceramics

verfasst von: Adnan Maqbool, Rizwan Ahmed Malik, Ali Hussain, Fazli Akram, Muhammad Asif Rafiq, Mohsin Saleem, Fazal Ahmad Khalid, Tae-Kwon Song, Won-Jeong Kim, Myong-Ho Kim

Erschienen in: Journal of Electroceramics | Ausgabe 1-4/2018

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Abstract

Heat treatment of ceramics is an important process to tailor the fine electromechanical properties. To explore the criteria for optimized heat treatment in a perovskite structure of (1–x)Bi_1.05FeO₃–xBaTiO₃ (BF–BT100x) system, the structural phase relation, ferroelectric and piezoelectric response of BF–BT36 and BF–BT40 ceramics prepared by furnace cooling (FC) and quenching process were investigated. The X-ray diffraction examination showed single pseudocubic perovskite structure for all the ceramics. The homogenous microstructure was obtained for all ceramics with relatively large grain size in the furnace cooled samples. Well saturated ferroelectric hysteresis loops and enhanced piezoelectric constant (d₃₃ = 97 pC/N) were achieved by quenching process. Dielectric curve of BF–BT36 showed large dielectric constant at its Curie temperature, however, BF–BT40 showed diffused relaxor-like dielectric anomalies. Quenched BF–BT36 samples showed typical butterfly like field induced strain curves, however negative strain decreased in BF–BT40 ceramics. From these investigated study, it is observed that BF–BT ceramics are very sensitive to the heat treatment process (furnace cooling and quenching) on the dielectric, electromechanical properties.

Vorheriger Artikel Electromechanical properties of ternary BiFeO3−0.35BaTiO3–BiGaO3 piezoelectric ceramics

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Titel: Evolution of ferroelectric and piezoelectric response by heat treatment in pseudocubic BiFeO3–BaTiO3 ceramics
verfasst von: Adnan Maqbool
Rizwan Ahmed Malik
Ali Hussain
Fazli Akram
Muhammad Asif Rafiq
Mohsin Saleem
Fazal Ahmad Khalid
Tae-Kwon Song
Won-Jeong Kim
Myong-Ho Kim
Publikationsdatum: 08.12.2018
Verlag: Springer US
Erschienen in: Journal of Electroceramics / Ausgabe 1-4/2018
Print ISSN: 1385-3449
Elektronische ISSN: 1573-8663
DOI: https://doi.org/10.1007/s10832-018-0172-8

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