Phase evolution and dielectric characterization of lead nickel niobate-lead zirconate ceramics prepared from the hydrothermally derived precursors
Journal
Journal of Materials Research
Journal Volume
14
Journal Issue
4
Pages
1364-1370
Date Issued
1999
Author(s)
Hwang W.-J.
Abstract
The perovskite compounds with the composition of (1 - x) Pb(Ni1/3Nb2/3)O3-xPbZrO3 have been successfully prepared from hydrothermally treated precursors. During calcination, the primary intermediate compound is pyrochlore phase in the Pb(Ni1/3Nb2/3)O3-rich composition, while it is PbZrO3 on the PbZrO3-rich side. On calcination at 800¢XC, all precursors convert into perovskite phases. In the formed solid solutions, increasing PbZrO3 content results in a rise in the apparent Curie temperature as well as the maximum dielectric permittivity. The Pb(Ni1/3Nb2/3)O3-rich perovskites (x < 0.8) possess the characteristics of relaxor ferroelectrics. With increasing PbZrO3 content, the dielectric response gradually becomes less diffuse and dispersive, reflecting a reduction in the relaxor characteristics of the formed perovskites.
SDGs
Type
journal article