Effects of oxidation on surface stresses and mechanical properties of liquid phase pressureless-sintered SiC–AlN–Y2O3 ceramics

Autor: Aldo Brillante, Giuseppe Magnani, Ivano Bilotti, Elena Trentini, Leandro Beaulardi
Přispěvatelé: G. Magnani, A. Brillante, I. Bilotti, L. Beaulardi, E. Trentini
Rok vydání: 2008
Předmět:
Zdroj: Materials Science and Engineering: A. 486:381-388
ISSN: 0921-5093
DOI: 10.1016/j.msea.2007.11.004
Popis: The understanding of the oxidation mechanism of 50 wt% SiC–50 wt% AlN composites obtained by means of pressureless sintering without the protective powder bed and with Y 2 O 3 as sintering-aid were significantly improved by means of Raman spectroscopy. These analyses put in evidence that “amorphous carbon” started to be formed at 1300 °C as main effect of active oxidation of SiC. At higher temperature the crystallization process began and it was completed at 1500 °C when only graphite could be recognized. On the basis of these new evidences, oxidation effects on the mechanical properties of SiC–AlN–Y 2 O 3 composites were defined. First of all, heat treatment in air was able to induce a compressive surface stress due to the volume gain associated to the oxidation of the intergranular phase. As a consequence apparent fracture toughness showed a value of 6.6 MPa m 1/2 after a heat treatment at 1300 °C, while at higher temperature effects of active oxidation caused a decreasing up to 4.7 MPa m 1/2 . This toughening mechanism was also used to improve the resistance to thermal shock, which was evaluated by performing quenching tests. Furthermore, passive oxidation induced the healing of superficial flaws by means of the formation of α-cristobalite. This phenomenon was assumed to be responsible for the increasing of the flexural strength.
Databáze: OpenAIRE
Externí odkaz: