Michael I. Gusman scite author profile

NASA Ames is pursuing a variety of approaches to modify and control the microstructure of UHTCs with the goal of improving fracture toughness, oxidation resistance and controlling thermal conductivity. The overall goal is to produce materials that can perform reliably as sharp leading edges or nose tips in hypersonic reentry vehicles. Processing approaches include the use of preceramic polymers as the SiC source (as opposed to powder techniques), the addition of third phases to control grain growth and oxidation, and the use of processing techniques to produce high purity materials. Both hot pressing and field assisted sintering have been used to make UHTCs. Characterization of the mechanical and thermal properties of these materials is ongoing, as is arcjet testing to evaluate performance under simulated reentry conditions. The preceramic polymer approach has generated a microstructure in which elongated SiC grains grow in the form of an in-situ composite. This microstructure has the advantage of improving fracture toughness while

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Synthesis and characterization of sintering resistant aerogel complex oxide powders

Lowe

Gusman

McCarty

1995

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Preparation of Superconducting Powders by Freeze-Drying

Johnson¹,

Gusman²,

Rowcliffe³

et al. 1987

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Michael I. Gusman

Processing, properties and arc jet oxidation of hafnium diboride/silicon carbide ultra high temperature ceramics

Stability of supported metal and supported metal oxide combustion catalysts

Recent Developments in Ultra High Temperature Ceramics at NASA Ames

Synthesis and characterization of sintering resistant aerogel complex oxide powders

Preparation of Superconducting Powders by Freeze-Drying

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