Starting from different Si3N4 matrices, submicrometric 20 vol. % SiC particle-reinforced Si3N4 composites were obtained by hot-pressing and pressureless sintering. Using the Ray and Bordia model, the sintering behaviour of the Si3N4 matrices during hot-pressing was found to be influenced by the presence of the second-phase particles. Mechanical properties of the matrices and composites were demonstrated to be strongly dependent upon grain size, sintering aid amount, densification route and particle reinforcement
Silicon nitride-silicon carbide composite materials
V Biasini;S Guicciardi;A Bellosi
1992
Abstract
Starting from different Si3N4 matrices, submicrometric 20 vol. % SiC particle-reinforced Si3N4 composites were obtained by hot-pressing and pressureless sintering. Using the Ray and Bordia model, the sintering behaviour of the Si3N4 matrices during hot-pressing was found to be influenced by the presence of the second-phase particles. Mechanical properties of the matrices and composites were demonstrated to be strongly dependent upon grain size, sintering aid amount, densification route and particle reinforcementFile in questo prodotto:
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