The microstructure of two Q2 pressureless-sintered ultra-high-tem- perature ceramics, namely ZrC120 vol% MoSi2 and HfC120 vol% MoSi2, was characterized by scanning and transmission electron microscopy. With regard to the ZrC-MoSi2 system, ZrxSiy compounds and SiC were detected. In the HfC-MoSi2 system, a mixed phase was detected at the triple points and identified as (Mo,Hf)5Si3. For both the systems investigated, the high wettability of the silicide-based phases on the matrix grains suggests that sintering is assisted by a liquid phase. This con- tribution reports for the first time on the sintering mechanisms of early transition metal carbides doped with MoSi2 as a sinter additive, on the basis of the microstructural evolution observed upon sintering and in the light of phase diagrams and thermo- dynamical calculations
Sintering mechanisms of zirconium and hafnium carbides doped with MoSi2
Silvestroni L;Sciti D;
2009
Abstract
The microstructure of two Q2 pressureless-sintered ultra-high-tem- perature ceramics, namely ZrC120 vol% MoSi2 and HfC120 vol% MoSi2, was characterized by scanning and transmission electron microscopy. With regard to the ZrC-MoSi2 system, ZrxSiy compounds and SiC were detected. In the HfC-MoSi2 system, a mixed phase was detected at the triple points and identified as (Mo,Hf)5Si3. For both the systems investigated, the high wettability of the silicide-based phases on the matrix grains suggests that sintering is assisted by a liquid phase. This con- tribution reports for the first time on the sintering mechanisms of early transition metal carbides doped with MoSi2 as a sinter additive, on the basis of the microstructural evolution observed upon sintering and in the light of phase diagrams and thermo- dynamical calculationsI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
