Abstract
ABSTRACTThe present study explores the reactivity of nanosized silicon carbide (SiC) with nitrogen gas in forming silicon nitride (Si3N4). As-received micron-sized SiC particles were reduced to nanosized SiC particles by high-energy ball milling. Further, the ball-milled powders were heat-treated at 1300°C, 1400°C and 1500°C for 2 h in argon and nitrogen atmospheres. The heat-treated powders were characterised by employing X-ray diffraction, scanning electron microscopy, transmission electron microscopy, differential thermal analysis and thermogravimetric analysis. Heat-treatment in nitrogen atmosphere resulted in the development of amorphous and crystalline Si3N4 nanowires/fibers/threads from the surface of nanosized SiC particles. The morphology of developed nanostructures showed a dependence on the heat-treatment temperature. The nanosized SiC powders with nanowires/fibers/threads of Si3N4 grown on their surfaces could be used as an effective reinforcement to produce novel composites.
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