Nanometric powdered TixTa1xC0.5N0.5-based cermets were fabricated using a mechanically induced selfsustaining reaction and consolidated by spark plasma sintering. Highly dense cermets were obtained, and their chemistry, microstructure and mechanical properties were characterised by X-ray diffraction, scanning electron microscopy, image analysis, microindentation and nanoindentation. The microhardness was found to depend directly on the contiguity and size of the ceramic hard particles. The samples synthesised at the lowest temperature (1150 C) exhibited more homogeneous microstructures and smaller ceramic particles and the best combination of microhardness and fracture toughness
Spark plasma sintering of TixTa1_xC0.5N0.5-based cermets: Effects of processing conditions on chemistry, microstructure and mechanical properties
Valentina Medri;Stefano Guicciardi;Cesare Melandri
2013
Abstract
Nanometric powdered TixTa1xC0.5N0.5-based cermets were fabricated using a mechanically induced selfsustaining reaction and consolidated by spark plasma sintering. Highly dense cermets were obtained, and their chemistry, microstructure and mechanical properties were characterised by X-ray diffraction, scanning electron microscopy, image analysis, microindentation and nanoindentation. The microhardness was found to depend directly on the contiguity and size of the ceramic hard particles. The samples synthesised at the lowest temperature (1150 C) exhibited more homogeneous microstructures and smaller ceramic particles and the best combination of microhardness and fracture toughnessI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
