Abstract
A nanometric silicon oxycarbonitride powder was synthesised by CO 2 laser pyrolysis from a mixture of an aerosol of a liquid precursor (hexamethyldisilazane, HMDS), a gaseous precursor (silane, SiH 4 ) and ammonia. The amorphous nanopowder and the sintering aids (6 wt% yttria and 3 wt% alumina) were mixed together in ethanol and de-agglomerated by milling with Si 3 N 4 balls. The mixture was then dried and sintered to nearly full density by hot-pressing. The nature and amount of the crystalline phases in the as-sintered materials appeared to be very sensitive to the drying stage. When drying was performed in a confined atmosphere, a noticeable amount of Si 2 N 2 O was detected in addition to β-Si 3 N 4 , whereas the crystalline phases were α- and β-Si 3 N 4 , when the slip was dried under vacuum. The creep behaviour of the two grades was assessed under compressive loading in air. The creep deformation of the Si 2 N 2 O containing material was about twice that of the other material under the same test conditions.
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