The dependence on the composition of Young 's modulus, fracture toughness and flexural strength of a reaction-sintered (RS) silicon-silicon carbide (Si-SiC) composite was determined at room temperature over a wide range of SiC content (0-90 vol%). The results were compared with those of two commercial reaction-bonded (RB) Si-Si C materials. Young 's modulus follows two-phase models over the whole compositional range when a value of 432 GPa is assumed for the Young's modulus of ?-SiC. At low Si C contents (<60 vol%), the RS composites show fracture behaviour consistent with a crack deflection toughening model, while at SiC content higher than about 70 vol%, they exhibit much higher surface energies than the equivalent RB commercial Si-SiC. Between 60 and 70 vol% SiC an abrupt change of fracture behaviour is observed. Such differences in surface energies are attributed to quite different microstructures and crack propagation mechanisms.
Mechanical Behaviour of Silicon-Silicon Carbide Composites
G de Portu;S Guicciardi
1996
Abstract
The dependence on the composition of Young 's modulus, fracture toughness and flexural strength of a reaction-sintered (RS) silicon-silicon carbide (Si-SiC) composite was determined at room temperature over a wide range of SiC content (0-90 vol%). The results were compared with those of two commercial reaction-bonded (RB) Si-Si C materials. Young 's modulus follows two-phase models over the whole compositional range when a value of 432 GPa is assumed for the Young's modulus of ?-SiC. At low Si C contents (<60 vol%), the RS composites show fracture behaviour consistent with a crack deflection toughening model, while at SiC content higher than about 70 vol%, they exhibit much higher surface energies than the equivalent RB commercial Si-SiC. Between 60 and 70 vol% SiC an abrupt change of fracture behaviour is observed. Such differences in surface energies are attributed to quite different microstructures and crack propagation mechanisms.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
