The effect of Y2O3 on the properties of porous Si3N4 ceramic prepared by reactive sintering

Zhuang Ma; Li Jun Zhang; Xiao Dong Yu; Yang Wei Wang

The effect of Y₂O₃ on the properties of porous Si₃N₄ ceramic prepared by reactive sintering

Zhuang Ma^*, Li Jun Zhang, Xiao Dong Yu, Yang Wei Wang

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Porous Si₃N₄ ceramic were fabricated via reactive sintering of Si/Si₃N₄ compacts. The influence of sintering additives Y₂O₃ on the phase composition, microstructures, porosity and flexural strength was studied. The result indicates that Si/Si₃N₄ compacts with 5% Y₂O₃ are completely nitrided with the condition of high purity nitrogen flow at temperature 1350°C for 12 hours. During the nitridation process, the crystalline secondary phase is formed on the interfaces between particles, which leads to the completely phase transformation from Si to Si₃N₄. The newly formed Si₃N₄ efficiently connects to the original Si₃N₄ powders, thus making the flexural strength increase from 28.1 MPa (no sintering additive Y₂O₃) to 45.2 MPa, while the porosity decreases little.

Original language	English
Pages (from-to)	6-8
Number of pages	3
Journal	Cailiao Gongcheng/Journal of Materials Engineering
Issue number	3
Publication status	Published - Mar 2009

Keywords

Porous ceramic
Reactive sintering
Sintering additives
YO

Cite this

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title = "The effect of Y2O3 on the properties of porous Si3N4 ceramic prepared by reactive sintering",

abstract = "Porous Si3N4 ceramic were fabricated via reactive sintering of Si/Si3N4 compacts. The influence of sintering additives Y2O3 on the phase composition, microstructures, porosity and flexural strength was studied. The result indicates that Si/Si3N4 compacts with 5% Y2O3 are completely nitrided with the condition of high purity nitrogen flow at temperature 1350°C for 12 hours. During the nitridation process, the crystalline secondary phase is formed on the interfaces between particles, which leads to the completely phase transformation from Si to Si3N4. The newly formed Si3N4 efficiently connects to the original Si3N4 powders, thus making the flexural strength increase from 28.1 MPa (no sintering additive Y2O3) to 45.2 MPa, while the porosity decreases little.",

keywords = "Porous ceramic, Reactive sintering, Sintering additives, YO",

author = "Zhuang Ma and Zhang, {Li Jun} and Yu, {Xiao Dong} and Wang, {Yang Wei}",

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AU - Ma, Zhuang

AU - Zhang, Li Jun

AU - Yu, Xiao Dong

AU - Wang, Yang Wei

PY - 2009/3

Y1 - 2009/3

N2 - Porous Si3N4 ceramic were fabricated via reactive sintering of Si/Si3N4 compacts. The influence of sintering additives Y2O3 on the phase composition, microstructures, porosity and flexural strength was studied. The result indicates that Si/Si3N4 compacts with 5% Y2O3 are completely nitrided with the condition of high purity nitrogen flow at temperature 1350°C for 12 hours. During the nitridation process, the crystalline secondary phase is formed on the interfaces between particles, which leads to the completely phase transformation from Si to Si3N4. The newly formed Si3N4 efficiently connects to the original Si3N4 powders, thus making the flexural strength increase from 28.1 MPa (no sintering additive Y2O3) to 45.2 MPa, while the porosity decreases little.

AB - Porous Si3N4 ceramic were fabricated via reactive sintering of Si/Si3N4 compacts. The influence of sintering additives Y2O3 on the phase composition, microstructures, porosity and flexural strength was studied. The result indicates that Si/Si3N4 compacts with 5% Y2O3 are completely nitrided with the condition of high purity nitrogen flow at temperature 1350°C for 12 hours. During the nitridation process, the crystalline secondary phase is formed on the interfaces between particles, which leads to the completely phase transformation from Si to Si3N4. The newly formed Si3N4 efficiently connects to the original Si3N4 powders, thus making the flexural strength increase from 28.1 MPa (no sintering additive Y2O3) to 45.2 MPa, while the porosity decreases little.

KW - Porous ceramic

KW - Reactive sintering

KW - Sintering additives

KW - YO

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The effect of Y₂O₃ on the properties of porous Si₃N₄ ceramic prepared by reactive sintering

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