Compressive Creep of Hot-Pressed Si3N4 Ceramics Using CRE2O3-Al2O3 or CRE2O3-AlN Additive Mixtures

Claudinei dos Santos; Kurt Strecker; M.J.R. Barboza; Sandro Aparecido Baldacim; Francisco Piorino Neto; Olivério Moreira Macedo Silva; Cosme Roberto Moreira Silva

doi:10.4028/www.scientific.net/MSF.498-499.104

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HomeMaterials Science ForumMaterials Science Forum Vols. 498-499Compressive Creep of Hot-Pressed Si3N4 Ceramics...

Compressive Creep of Hot-Pressed Si₃N₄ Ceramics Using CRE₂O₃-Al₂O₃ or CRE₂O₃-AlN Additive Mixtures

Abstract:

The creep behavior of hot-pressed Si3N4 ceramics was investigated. The proposal of this work is to investigate the use of yttrium-rare earth oxide mixture, CRE2O3, produced at FAENQUIL, as sintering additive, since the cost of production of this material is 80% inferior to Y2O3. These ceramics were obtained by uniaxial hotpressing using different additive contents and mixtures (CRE2O3-Al2O3 or CRE2O3- AlN). Compressive creep tests were carried out at 13000C and 300 MPa, in air. The Si3N4-CRE2O3-Al2O3 ceramics demonstrated that the creep resistance is inversely proportional to the additive content. Mixtures with high intergranular phase content presented low creep resistance due to high oxidation and more pronounced softening of the intergranular phase. Si3N4-CRE2O3-AlN ceramics demonstrated better creep resistance with a steady-state creep rate of 7 x 10-8 s-1. This behavior is related to the a-SiAlON content, a solid solution of Si3N4 that incorporates a great fraction of intergranular phase, decreasing the amount of intergranular phase.

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Periodical:

Materials Science Forum (Volumes 498-499)

Pages:

104-110

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.498-499.104

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Online since:

November 2005

Authors:

Claudinei dos Santos, Kurt Strecker, M.J.R. Barboza, Sandro Aparecido Baldacim, Francisco Piorino Neto, Olivério Moreira Macedo Silva, Cosme Roberto Moreira Silva

Keywords:

CRE₂O₃, Creep, Sintering Additive

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References

[1] A. Bellosi, in: Y.G. Gogotsi, R.A. Andrieuski, Editors, Materials Science of carbides, nitrides and borides, Kluwer Academic Publishers, Netherlands, Vol 68, 1999: pp.285-304.