在x=0.00至0.10的Ti位添加Zr改性BaTi0.80Fe0.20O3陶瓷的结构、介电和电学性能。

IF 1.1 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Iranian Journal of Materials Science and Engineering Pub Date : 2021-09-10 DOI:10.22068/IJMSE.2059

N. Gouitaa, Lamcharfi Taj-dine, A. Farid, Ahjyaje Fatima Zahra

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引用次数: 1

摘要

在本研究中，我们采用固态方法合成了Zr含量从x=0.00到0.10的Zr取代的BaTi0.80Fe0.20O3陶瓷。室温X射线衍射结果证实，当Zr含量X≤0.050时，两种四方和六方相共存。而在0.050以上，由于四方相的存在，六方相消失了。拉曼结果证实了通过XRD获得的这些相的形成。对于x=0.000至0.075，扫描电子显微照片由球形和直晶粒形式组成，对于x=0.100，只有球形晶粒形式归因于四方相。此外，随着Zr含量增加到0.050，陶瓷的晶粒尺寸随着密度的降低而增加，然后随着密度的增加而减小。介电常数测量的详细研究提供了在不同温度下存在两种异常Te和TR-O，具有弛豫现象和扩散行为，这对于Zr含量x=0.075的陶瓷非常重要。Zr取代的BaTi0.80Fe0.20O3陶瓷的介电常数随Zr含量的增加而增加，在Zr含量x=0.100时介电损耗最小。电导率随着Zr取代度的增加而从0.025增加到0.075，而当x=0.100时，介电电导率降低。Cole-Cole分析表明，这些材料具有负的热阻系数（NTCR）行为和理想的德拜型行为。

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Structural, Dielectric and Electrical Properties of Modified BaTi0.80Fe0.20O3 Ceramics by Zr Addition in Ti Site at x=0.00 to 0.10.

In this study, we have synthesized the Zr substituted BaTi0.80Fe0.20O3 ceramics at different content of Zr from x=0.00 to 0.10 by using the solid-state route. The room temperature X-ray diffraction results confirmed the coexistence of the two tetragonal and hexagonal phases for x ≤ 0.050 of Zr content. While above 0.050 the hexagonal phase disappeared in benefit of the tetragonal phase. The Raman results confirmed the formation of these phases obtained by XRD. The scanning electron micrographs consisted of both spherical and straight grain forms for x=0.000 to 0.075, and only spherical grain form for x=0.100 attributed to the tetragonal phase. Also, the grain size increased accompanied by a decrease in density of ceramics with increasing Zr content up to 0.050 then decreased accompanied by an increase in density. Detailed studies of dielectric permittivity measurement provided a presence of two anomalies Te and TR-O at different temperatures, with a relaxation phenomenon and diffuse behavior which was very important for ceramic at x=0.075 of Zr content. The dielectric permittivity values of the two anomalies of Zr substituted BaTi0.80Fe0.20O3 ceramics increased with the increase of Zr content and the dielectric loss was minimal at x=0.100 of Zr content. The conductivity increased with increasing of Zr substitution from 0.025 to 0.075 levels while for x = 0.100 the dielectric conductivity decreased. And the Cole-Cole analysis indicated a negative thermal resistivity coefficient (NTCR) behavior of these materials and ideal Debye-type behavior.

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来源期刊

Iranian Journal of Materials Science and Engineering MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

1.30

自引率

10.00%

发文量

审稿时长

18 weeks