Compressive creep behavior of hot-pressed Si 3N 4–CRE 2O 3–Al 2O 3 ceramics

• Published in: Materials research bulletin Vol. 39; no. 9; pp. 1279 - 1289
• Main Authors: Santos, C., Strecker, K., Barboza, M.R.J., Neto, F.Piorino, Silva, O.M.M., da Silva, C.R.M.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 2004
• Subjects: A. Ceramics; A. Nitrides; D. Mechanical properties; A. Nitrides; A. Ceramics; D. Mechanical properties
• ISSN: 0025-5408; 1873-4227
• DOI: 10.1016/j.materresbull.2004.04.006

In this work, yttrium–rare earth oxide solid solution, CRE 2O 3, produced at FAENQUIL-DEMAR at a cost of only 20% of pure commercial Y 2O 3, was used as sintering additive of hot-pressed Si 3N 4 ceramics. The objective of this work was to characterize and to investigate the creep behavior of these ceramics. The samples were sintered by hot-pressing at 1750 °C, for 30 min using a pressure of 20 MPa. Compressive creep tests were carried out in air, between 1250 and 1300 °C, for 60 h, under stresses of 200–300 MPa. The stress exponent under all conditions was determined to be about unity. The apparent activation energy obtained was around 460 kJ mol −1, corresponding to the heat of solution of the Si 3N 4 in the glassy phase. Both the stress exponent n and apparent activation energy Q are within the range of values reported in other studies of the compressive creep of Y 2O 3–Al 2O 3–doped–Si 3N 4 ceramics. X-ray diffraction (XRD) characterization shows a global reorientation of the β-Si 3N 4 grains and SEM observations detected no grain growth after the creep tests. These results indicate that grain-boundary sliding controlled by viscous flow is the dominant creep mechanism observed in the present study. The creep resistance presented of this samples indicates that this additive CRE 2O 3 can be a cheap alternative in the fabrication of Si 3N 4 ceramics, resulting in promising mechanical properties.