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教育背景: 1.2003-2007年:毕业于东北大学,学士,冶金工程; 2.2007-2009年:毕业于东北大学,硕士,有色金属冶金; 3.2009-2013年:毕业于东北大学,博士,有色金属冶金; 工作经历: 1.2013年1月2016年11月,西安建筑科技大学,讲师; 2.2016年12月至今,西安建筑科技大学,副教授 社会兼职: 1.2017.5中国有色金属学会会员
杜金晶
Associate Professor
Paper Publications
Microstructure, Mechanical Properties, and Pyroconductivity of NiFe2O4 Composite Reinforced with ZrO2 Fibers
Release time:2024-08-09 Hits:
Affiliation of Author(s):
冶金工程学院
Journal:
Journal of Materials Engineering and Performance
Key Words:
中文关键字:陶瓷基复合材料; 电导率; 热处理; 力学测试; ZrO2纤维,英文关键字:ceramic matrix composites; conductivity; heat trea
Abstract:
NiO-Fe2O3-ZrO2f composites were fabricated by a two-step sintering process. No phase transformation for ZrO2f was observed. The as-prepared NiO-Fe2O3-ZrO2f ceramic showed excellent mechanical properties because of the introduction of ZrO2 fiber. The values for both the bending strength and fracture strength of 3 wt.% ZrO2f-reinforced NiFe2O4 samples reached the maximum values of ~89.0 MPa and ~4.67 MPa m1/2, respectively, The toughness mechanism is mainly attributed to fibers’ fracture, crack deflection, fibers’ pull-out, and fibers’ debonding. The conductivity of ZrO2f-reinforced NiFe2O4 is dependent on temperature and ZrO2f content. When the electrolytic temperature is up to 950°C, the conductivity value of the sample reinforced with 4 wt.% ZrO2 fibers is 0.63 S/cm, which has been improved by 37.8% compared with the conductivity value of 0.45 S/cm for the un-doped samples. The main conductive mechanisms of ZrO2 fiber in the matrix are the one based on the substitution of Zr4+ ions to produce quasifree electrons, and the other based on oxygen ionic conducting mechanism.
Note:
SCI/EI:20132216368483
Co-author:
YihanLiu,GuangchunYao,ZhongshengHua,XiuliLo
First Author:
dujinjing
Indexed by:
Journal paper
Volume:
卷:22
Issue:
期:6
Page Number:
页:1776–1782
Translation or Not:
no
Date of Publication:
2013-06-01

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