Structure, Ferroelectric, and Magnetoelectric Properties of Bulk PZT–NiFe1.9Co0.02О4 – δ Composites


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The phase composition, microstructure, and dielectric, ferroelectric, magnetic, and magnetoelectric properties of bulk ceramic (1 – x)PZT–xNiFe1.9Co0.02О4 – δ composites with 3–0 connectivity have been studied. Using X-ray diffraction and electron microscopy, it has been established that the ferrimagnetic (spinel- like) and ferroelectric (tetragonal perovskite-like) phases separately exist in the composites of all compositions. The simultaneous existence of ferroelectric and ferrimagnetic properties in the composites is confirmed by measuring their P(E) and σ(B) hysteresis loops and studying the temperature dependences of dielectric and magnetic properties. The synthesized composites have high magnetoelectric characteristics: their voltage coefficient at x = 0.4 is 215 mV/A at a frequency of 1 kHz and 130 V/A at an electromechanical resonance frequency of 380 kHz.

作者简介

V. Shut

Institute of Technical Acoustics

编辑信件的主要联系方式.
Email: shut@vitebsk.by
白俄罗斯, Vitebsk, 210009

V. Laletin

Institute of Technical Acoustics

Email: shut@vitebsk.by
白俄罗斯, Vitebsk, 210009

S. Syrtsov

Institute of Technical Acoustics

Email: shut@vitebsk.by
白俄罗斯, Vitebsk, 210009

V. Trublovsky

Institute of Technical Acoustics

Email: shut@vitebsk.by
白俄罗斯, Vitebsk, 210009

Yu. Medvedeva

Institute of Technical Acoustics

Email: shut@vitebsk.by
白俄罗斯, Vitebsk, 210009

K. Yanushkevich

Scientific and Practical Center for Material Science

Email: shut@vitebsk.by
白俄罗斯, Minsk, 220072

M. Bushinskii

Scientific and Practical Center for Material Science

Email: shut@vitebsk.by
白俄罗斯, Minsk, 220072

T. Petlitskaya

Integral Company

Email: shut@vitebsk.by
白俄罗斯, Minsk, 220108

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