Title :
Effect of nickel-niobium co-doping on structural, electromechanical, and dielectric properties of lead titanate ceramics
Author :
Amarande, Luminita ; Miclea, Cornel ; Tanasoiu, Teodora ; Iuga, Alin ; Cioangher, Marius Cristian ; Trupina, Lucian ; Grecu, Maria-Nicoleta ; Pasuk, Iuliana
Author_Institution :
Nat. Inst. of Mater. Phys., Bucharest-Magurele, Romania
fDate :
9/1/2009 12:00:00 AM
Abstract :
Lead titanate (PT) ceramics co-doped with 8 to 13 mol% Ni-Nb, by substituting titanium ions, were prepared by conventional ceramic method and the influence of Ni-Nb doping level on their mopho-structural, electromechanical and dielectric properties was investigated. Dense tetragonal PT ceramics were obtained for 8 to 12 mol% Ni-Nb co-doping. Lattice anisotropy decreased from 1.053 to 1.046 with increasing doping level. Large thickness coupling factors of 0.4 were obtained for 8, 11, and 12 mol% Ni-Nb. Large electromechanical anisotropy of 10 was obtained for 8 mol% Ni-Nb. It was found that Ni-Nb co-doping has both softening and hardening effects as a function of donor or acceptor behavior of different amounts of Ni-Nb. For 13 mol% Ni-Nb, segregation of a small amount of a secondary phase occurs, lattice constants and tetragonality significantly decrease and the resulting ceramic becomes very hard.
Keywords :
doping; electromechanical effects; ferroelectric ceramics; lattice constants; lead compounds; nickel; niobium; permittivity; phase separation; piezoceramics; PbTiO3:(Ni-Nb); dense tetragonal PT ceramics; dielectric properties; electromechanical anisotropy; hardening effect; lattice anisotropy; lattice constant; lead titanate ceramics; nickel-niobium co-doping; phase segregation; softening effect; structural properties; thickness coupling factors; Anisotropic magnetoresistance; Ceramics; Dielectrics; Doping; Lattices; Softening; Titanium compounds;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
DOI :
10.1109/TUFFC.2009.1251
