Your search keyword '"He, Jizhuang"' showing total 3 results

1. Influence of calcination temperature on structure and multiferroic properties of barium ferrite ceramics

Author

Zeng Zhixin, Zhang Qin, Wu Heng, Lan Mengshuang, Ao Hong, Li Wenchuan, Zhou Chuang, He Jizhuang, Xing Shulin, Deng Xiaoling, and Gao Rongli

Subjects

barium ferrite, sol-gel method, calcination temperature, multiferroic properties, Clay industries. Ceramics. Glass, TP785-869

Abstract

In this paper, barium ferrite powders were synthesized by sol-gel method, calcined at different temperatures, and on this basis the corresponding ceramics were prepared. The effects of calcination temperature on the structure, magnetic, dielectric and multiferroic properties of BaFe12O19 ceramics were studied. XRD results confirmed similarity between powders and ceramics, where dominant phase is BaFe12O19 and a small amount of an apparent BaFe2O4 impurity phase was formed at lower calcination temperature. The impurity BaFe2O4 phase is the main reason for decreasing powder magnetization. The maximum dielectric constant of 100 (at 10 kHz) and maximum remanent polarization, remanent magnetization and saturation magnetization of 0.46 μC/cm2, 47.37 emu/g and 79.96 emu/g, respectively, were obtained in the barium ferrite ceramics prepared from the powder calcined at 1100°C. This research could be the basis for the study of single-phase multiferroic materials and the development of multi-order electronic devices.

Published

2022

2. Effect of solution concentration on magnetoelectric properties of barium ferrite ceramics

Author

Zeng, Zhixin, Lan, Mengshuang, Zhang, Qin, Wu, Heng, He, Jizhuang, Ao, Hong, Li, Wenchuan, Wang, Zhenhua, Lei, Xiang, Deng, Xiaoling, Gao, Rongli, Cai, Wei, Chen, Gang, and Fu, Chunlin

Published

2021

3. Effect of sintering temperature on magnetoelectric properties of PbTiO3/NiFe2O4 composite ceramics.

Author

Zeng, Zhixin, Wu, Heng, Zhou, Chuang, Qin, Xiaofeng, He, Jizhuang, Ji, Cong, Deng, Xiaoling, Gao, RongLi, Fu, Chunlin, Cai, Wei, Chen, Gang, Wang, Zhenhua, and Lei, Xiang

Subjects

MICROWAVES, TEMPERATURE effect, MAGNETOELECTRIC effect, SPACE charge, CERAMICS, REMANENCE, SINTERING, MULTIFERROIC materials

Abstract

Magnetoelectric composites have attracted much attention due to their strong magnetoelectric coupling effect. In this paper, PbTiO3-NiFe2O4 (PTO/NFO) composite ceramics were prepared by sol-gel method. Effect of sintering temperatures on the structure, dielectric properties and multiferroic properties were studied. XRD results show that PTO/NFO ceramics have been successfully prepared. When the sintering temperature is 1050 °C, the secondary phase PbO2 exists in the ceramics. SEM results show that there were two kinds of grains with different sizes. EDS analysis suggested that the large particles are NFO and the small particles are PTO. The sintering temperature has a great influence on the dielectric and ferroelectric properties of the prepared ceramics. When the sintering temperature is 950 °C, the ceramics show the maximum dielectric constant at low frequency. When the sintering temperature is 1150 °C, the maximum residual polarization is 1.236 μC/cm2. The conductive mechanism of ceramics is dominated by Space Charge – Limited Conduction. The remanent magnetization and coercive field decrease with increasing the sintering temperature. The magnetoelectric coupling coefficient shows that ceramics have strong magnetoelectric coupling performance (5.7 V/cm·Oe). [ABSTRACT FROM AUTHOR]

Published

2020