Effect of grain size on crystal structure and electric properties of Bi(Ni2/3Ta1/3)O3-PbTiO3 ferroelectric ceramics

IF 1.7 4区材料科学 Q2 MATERIALS SCIENCE, CERAMICS Journal of Electroceramics Pub Date : 2022-09-06 DOI:10.1007/s10832-022-00293-8

Huimin Wang, Dongfang Pang

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Abstract

The effect of grain size on crystal structure and the ferroelectric, dielectric, and piezoelectric properties of 0.38Bi(Ni_2/3Ta_1/3)O₃-0.62PbTiO₃ ceramics was studied herein. By controlling the sintering time, 0.38Bi(Ni_2/3Ta_1/3)O₃-0.62PbTiO₃ ceramics with different grain sizes were prepared by the conventional solid-state reaction. It was found that the crystal structure of the ceramics changed slightly with the increase of grain size, from a pure tetragonal perovskite structure to a combination of tetragonal and rhombohedral phases. Both the Curie temperature T_C and the depolarization temperature T_d of the ceramics decreased with increasing grain size. However, the degree of dielectric relaxation first increased and then decreased, with the relaxation factor γ ranging from 1.35 to 1.87. The remnant polarization P_r and coercive field E_C also first increased and then decreased, whereas the strain increased with the increase of grain size. The high field strain coefficient d^*₃₃ and piezoelectric coefficient d₃₃ both increased with the increase of grain size. However, in this ceramic system, the electromechanical coupling coefficient k_p and mechanical quality factor Q_m changed independently of the variation in grain size.

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晶粒尺寸对Bi(Ni2/3Ta1/3)O3-PbTiO3铁电陶瓷晶体结构和电性能的影响

研究了晶粒尺寸对0.38Bi(Ni2/3Ta1/3)O3-0.62PbTiO3陶瓷晶体结构及铁电、介电和压电性能的影响。通过控制烧结时间，采用常规固相反应法制备了不同晶粒尺寸的0.38Bi(Ni2/3Ta1/3)O3-0.62PbTiO3陶瓷。随着晶粒尺寸的增大，陶瓷的晶体结构发生了轻微的变化，由纯的四方钙钛矿结构转变为四方和菱形相的结合结构。随着晶粒尺寸的增大，陶瓷的居里温度TC和退极化温度Td均降低。但介质弛豫程度先增大后减小，弛豫因子γ在1.35 ~ 1.87之间。残余极化Pr和矫顽力场EC随晶粒尺寸的增大先增大后减小，应变随晶粒尺寸的增大而增大。高场应变系数d*33和压电系数d33均随晶粒尺寸的增大而增大。然而，在该陶瓷体系中，机电耦合系数kp和机械品质因子Qm的变化与晶粒尺寸的变化无关。

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来源期刊

Journal of Electroceramics 工程技术-材料科学：硅酸盐

CiteScore

2.80

自引率

5.90%

发文量

审稿时长

5.7 months

期刊介绍： While ceramics have traditionally been admired for their mechanical, chemical and thermal stability, their unique electrical, optical and magnetic properties have become of increasing importance in many key technologies including communications, energy conversion and storage, electronics and automation. Electroceramics benefit greatly from their versatility in properties including: -insulating to metallic and fast ion conductivity -piezo-, ferro-, and pyro-electricity -electro- and nonlinear optical properties -feromagnetism. When combined with thermal, mechanical, and chemical stability, these properties often render them the materials of choice. The Journal of Electroceramics is dedicated to providing a forum of discussion cutting across issues in electrical, optical, and magnetic ceramics. Driven by the need for miniaturization, cost, and enhanced functionality, the field of electroceramics is growing rapidly in many new directions. The Journal encourages discussions of resultant trends concerning silicon-electroceramic integration, nanotechnology, ceramic-polymer composites, grain boundary and defect engineering, etc.