LaFeO3 改性 Bi(1/2)(Na(0.78)K(0.22))(1/2)TiO3 弛豫体中遍历性和非遍历性的共存。

Coexistence of ergodicity and nonergodicity in LaFeO3-modified Bi(1/2)(Na(0.78)K(0.22))(1/2)TiO3 relaxors.

机构信息

School of Materials Science and Engineering, University of Ulsan, Ulsan 680-749, Republic of Korea.

出版信息

J Phys Condens Matter. 2012 Sep 12;24(36):365901. doi: 10.1088/0953-8984/24/36/365901. Epub 2012 Aug 21.

Abstract

The effect of LaFeO(3) addition to Bi(1/2)(Na(0.78)K(0.22))(1/2)TiO(3) ceramics on the phase stability and macroscopic functional properties was investigated. Similarly to other chemical modifiers known in the literature, LaFeO(3) addition suppresses an electric-field-induced long-range ferroelectric order, giving rise to a giant unipolar strain of ~0.3% at 2 mol% LaFeO(3) addition. Time-dependent changes in polarization and strain hysteresis loops both during successive electrical cycling and after removal of the electric field suggest that a specimen with 2 mol% LaFeO(3) consists of both ergodic and nonergodic phases, which is unique among the known relaxor materials.

摘要

研究了 LaFeO(3) 对 Bi(1/2)(Na(0.78)K(0.22))(1/2)TiO(3) 陶瓷的相稳定性和宏观功能特性的影响。与文献中已知的其他化学改性剂一样，LaFeO(3) 的添加抑制了电场诱导的长程铁电有序，导致在添加 2mol% LaFeO(3) 时产生约 0.3%的巨单轴应变。在连续电循环过程中和电场去除后，极化和应变滞后回线的时变表明，添加 2mol% LaFeO(3) 的样品由遍历相和非遍历相组成，这在已知弛豫材料中是独特的。

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LaFeO3 改性 Bi(1/2)(Na(0.78)K(0.22))(1/2)TiO3 弛豫体中遍历性和非遍历性的共存。

Coexistence of ergodicity and nonergodicity in LaFeO3-modified Bi(1/2)(Na(0.78)K(0.22))(1/2)TiO3 relaxors.

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