Enhancement of the Magnetoelectric Effect in PZT-Ni Ferrite Composites Using Post Sintering Thermal Treatment

Ferrites - Synthesis and Applications Pub Date : 2021-11-17 DOI:10.5772/intechopen.99870

Rashed Adnan Islam

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Abstract

In this chapter, the piezoelectric and magnetoelectric properties of Pb (Zr0.52T0.48)O3–X NiFe1.9Mn0.1O4 (PZT-NFM, where X ranges from 3 to 10%) were investigated along with SEM and TEM analysis. Post sintering thermal treatment (annealing and aging) was introduced to enhance the piezoelectric and magnetoelectric property of the composites. The density was found around 7.6–7.8 gm/cc. The piezoelectric constant d33 and the voltage constant were found to be decreased with increasing magnetic particle from 3–10%. Experimental results indicated that the magnetoelectric voltage coefficient (dE/dH) increases with increasing percentage of Nickel Ferrite (~35 for 3% NF to 140 mV/Oe. cm for 10% NF at 1125°C). The samples, which were annealed and aged after sintering show as high as 50% (140 to 220 mV/cm Oe) increase in dE/dH coefficient. This is due to the increase in resistivity due to better homogeneity. The H-M curve of the composite powders show that the PZT-NFM is a ferromagnetic material as well. The SEM investigation shows very compact structure with average grain size around 150 nm and some areas of the NF rich phase. The X-ray mapping shows that the NF is distributed in the big grains of the matrix and after annealing it homogenizes.

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烧结后热处理增强PZT-Ni铁氧体复合材料的磁电效应

在本章中，研究了Pb (Zr0.52T0.48) O3-X NiFe1.9Mn0.1O4 (PZT-NFM，其中X范围为3 ~ 10%)的压电和磁电性能，并进行了SEM和TEM分析。引入烧结后热处理(退火和时效)来提高复合材料的压电和磁电性能。密度约为7.6-7.8 gm/cc。随着磁粉的增加，压电常数d33和电压常数在3 ~ 10%之间减小。实验结果表明，磁电电压系数(dE/dH)随着铁氧体镍含量的增加而增加(3% NF = 35 ~ 140 mV/Oe)。在1125°C下，10% NF为cm)。烧结后进行退火和时效处理的样品dE/dH系数提高了50% (140 ~ 220 mV/cm Oe)。这是由于均匀性较好，电阻率增加所致。复合粉末的H-M曲线表明PZT-NFM也是一种铁磁性材料。SEM分析表明，该材料结构致密，平均晶粒尺寸在150 nm左右，部分区域为富纳滤相。x射线图表明，NF分布在基体的大晶粒中，退火后均匀化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Ferrites - Synthesis and Applications

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