Portal de Periódicos da CAPES

Effect of sintering temperature and siliconcarbide fraction on density, mechanical properties and fracture mode of alumina–silicon carbide micro/nanocomposites

2012; Elsevier BV; Volume: 37; Linguagem: Inglês

10.1016/j.matdes.2011.12.038

0261-3069

Alireza Rahimnejad Yazdi, Hamidreza Baharvandi, Hossein Abdizadeh, Jalil Purasad, Amir Fathi, H. Ahmadi,

Advanced materials and composites

In this study Al2O3–SiC micro/nanocomposites have been fabricated by mixing alumina nanopowders and silicon carbide micro/nanopowders, followed by hot pressing at 1550, 1600, 1650 and 1700 °C. The density, mechanical properties and fracture mode of Al2O3–SiC composites containing different volume fractions (2.5%, 5%, 7.5%, 10% and 15%) of micro/nanoscale SiC particles were investigated and compared with those of alumina. The relative density of composites could reach values very close to theoretical density, especially after sintering at 1700 °C. However, relative density declined by increasing the SiC fraction at the same sintering temperature. The flexural strength of composites was best for sintering temperature of 1700 °C and showed a maximum of 545 MPa for Alumina–10%SiC sintered at 1700 °C. Hardness showed a remarkable increase by adding SiC and reached a pick of 22.6 GPa for Alumina–15%SiC. Fracture toughness and fracture mode of alumina and composites with 5%, 10% and 15% SiC sintered at 1700 °C were also investigated. Composites were tougher than alumina and the scanning electron microscopy observations showed that fracture mode changes from intergranular for alumina to transgranular for composites. Finally X-ray diffraction analysis could not detect any chemical reactions between Al2O3 and SiC particles.