Composition,microstructures and properties of Al2O3/ZrO2（4Y）prepared by combustion synthesis under high gravity

Zhao Zhongmin; Zhang Long; Song Yalin; Zhu Hao; Pan Chuanzeng

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Composition,microstructures and properties of Al₂O₃/ZrO₂（4Y）prepared by combustion synthesis under high gravity
Issue S1, Pages: 297-302(2008)
Published： 2008 ，
DOI：

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[1]赵忠民,张龙,宋亚林,朱浩,潘传增.超重力下燃烧合成Al_2O_3/ZrO_2(4Y)成分、结构与性能[J].特种铸造及有色合金,2008(S1):297-302.

Zhao Zhongmin, Zhang Long, Song Yalin, et al. Composition,microstructures and properties of Al₂O₃/ZrO₂（4Y）prepared by combustion synthesis under high gravity. [J]. Special Casting & Nonferrous Alloys (S1):297-302(2008)
[1]赵忠民,张龙,宋亚林,朱浩,潘传增.超重力下燃烧合成Al_2O_3/ZrO_2(4Y)成分、结构与性能[J].特种铸造及有色合金,2008(S1):297-302. DOI：

Zhao Zhongmin, Zhang Long, Song Yalin, et al. Composition,microstructures and properties of Al₂O₃/ZrO₂（4Y）prepared by combustion synthesis under high gravity. [J]. Special Casting & Nonferrous Alloys (S1):297-302(2008) DOI：

摘要

通过在铝热剂中引入ZrO2（4Y）粉末

以超重力下燃烧合成技术

制备出不同成分与结构的Al2O3/ZrO2（4Y）大体积新型复合陶瓷板材

并研究了复合陶瓷成分、显微结构与力学性能之间的关系。XRD、SEM与EDS表明

Al2O3/33ZrO2（4Y）是以取向各异且纳微米t-ZrO2纤维呈三角对称镶嵌其上的棒状共晶团为基

且周围分布着t-ZrO2微米球晶;同时

Al2O3/40ZrO2（4Y）则以t-ZrO2微米球晶为基

周围分布着不规则形状的α-Al2O3晶及少量的共晶团组织。相比于国外定向凝固Al2O3/ZrO2（Y2O3）

试验Al2O3/33ZrO2（4Y）强硬性的提高可归因于材料的高致密性、小尺寸缺陷及残余压应力增韧、相变增韧机制所导致的高断裂韧度;同时

Al2O3/40ZrO2（4Y）虽在硬度上有所下降

但在弯曲强度与断裂韧度却分别提高了19.0%与311.1%

故材料的强化可认为是因t-ZrO2微米球晶基体所具有的小尺寸缺陷及相变增韧与微裂纹增韧机制所诱发的高断裂韧度所致。

Abstract

By introducing ZrO2 （4Y） powder into the thermit

the large-scale plates of novel Al2O3/ZrO2 （4Y） composite ceramics with different component and microstructure were prepared through combustion synthesis under high gravity

and the correlations of component

microstructures and mechanical properties of composite ceramics were investigated. XRD

SEM and EDS showed that Al2O3/33%ZrO2 （4Y） were composed of random-orientated rod-shaped colonies consisting of a triangular dispersion of orderly t-ZrO2 submicron fibers

surrounded by inter-colony regions consisting of nano-micronmeter spherically-shaped t-ZrO2 grains; meanwhile

Al2O3/40%ZrO2 （4Y） were comprised of micron-meter spherically-shaped t-ZrO2 grains

surround by irregularly-shaped α-Al2O3 grains and a few colonies. Compared to the international directionally-solidified Al2O3/ZrO2 （Y2O3）

the increase in hardness and flexural strength of Al2O3/33%ZrO2 （4Y） in the experiment was due to high densification

small-size defect and high fracture toughness induced by compressive residual stress toughening and transformation toughening mechanisms; meanwhile

in despite of the moderate decrease in hardness

flexural strength and fracture toughness of Al2O3/40%ZrO2 （4Y） were increased by 19.0% and 311.1%

respectively

and the reinforcing of the materials was considered to be a result of small-size defect in micron-meter spherically-shaped t-ZrO2 grain matrix and high fracture toughness induced by stress-induced t-ZrO2 transformation toughening and transformation-induced micro-crack toughening mechanisms.