Downloads provided by UsageCountsPhase transition and dielectric properties of BaTiO3 ceramics containing 10 mol% BaGeO3
Copyright policy ) Roberto Köferstein; Lothar Jäger; Mandy Zenkner; Stefan G. Ebbinghaus;
Phase transition and dielectric properties of BaTiO3 ceramics containing 10 mol% BaGeO3
Dielectric properties and the cubic ? tetragonal phase transition temperature ofdense BaTiO3 ceramics containing 10 mol% BaGeO3, sintered between 840 and 1350 °C,have been investigated. The ceramic bodies were prepared from a nano-sized BaTi0.9/Ge0.1O3powder consisting of both BaTiO3 and BaGeO3 phases. The addition of BaGeO3 leads to areduction and broadening of the permittivity maximum, and to a small downshift of theparaelectric ? ferroelectric phase transition temperature, compared to a pure BaTiO3 ceramic.Lower sintering temperatures and thus small grain sizes of the ceramics cause an additionalreduction of the maximum permittivity down to 2800. Both DTA and dilatometricmeasurements reveal also a downshifting of the phase transition temperature, as well as adecrease of the latent heat.
sintering, ceramic, DTA, permittivity, dilatometry, nano-particle, Inorganic Chemistry, Chemistry, BaTiO3, phase transition, Physical Sciences and Mathematics, Materials Chemistry, dielectric, perovskite
sintering, ceramic, DTA, permittivity, dilatometry, nano-particle, Inorganic Chemistry, Chemistry, BaTiO3, phase transition, Physical Sciences and Mathematics, Materials Chemistry, dielectric, perovskite
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