Sriharsha Pasupuleti scite author profile

A well known route to making tough silicon nitride compositions is to control the grain size and aspect ratio distributions. This is usually done by choosing the appropriate powder characteristics, sintering conditions, as well as sintering additives. The effect of hot pressing a blend of nano and micrometre scale silicon nitride powder is explored here. Microstructures and mechanical properties are determined for these hot pressed ceramics and are compared with a reference silicon nitride. Hardness and fracture toughness are determined at room temperature using hardness indents produced by a macro Vickers hardness indenter. Grain size and aspect ratio distributions and their impact on mechanical properties are presented. Blending of nano and micrometre scale powder is shown to result in a refined microstructure with an increase in the area/volume fraction of finer grains. Rising R curves are established for these ceramics demonstrating toughening behaviour. Crack bridging and crack path deviation are identified as possible toughening mechanisms.

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The effect of nano-sized sintering aids on toughening behavior of silicon nitride

Pasupuleti

Peddetti

Santhanam

et al. 2008

J Mater Sci

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Sriharsha Pasupuleti

Toughening behavior in a carbon nanotube reinforced silicon nitride composite

Influence of nano–micrometre powder blends on microstructure and mechanical properties of silicon nitride

The effect of nano-sized sintering aids on toughening behavior of silicon nitride

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