
doi: 10.2172/887260
HfB{sub 2} and ZrB{sub 2} are of interest for thermal protection materials because of favorable thermal stability, mechanical properties, and oxidation resistance. We have made dense diboride ceramics with 2 to 20 % SiC by hot pressing at 2000 C and 5000 psi. High-resolution transmission electron microscopy (TEM) shows very thin grain boundary phases that suggest liquid phase sintering. Fracture toughness measurements give RT values of 4 to 6 MPam{sup 1/2}. Four-pt flexure strengths measured in air up to 1450 C were as high as 450-500 MPa. Thermal diffusivities were measured to 2000 C for ZrB{sub 2} and HfB{sub 2} ceramics with SiC contents from 2 to 20%. Thermal conductivities were calculated from thermal diffusivities and measured heat capacities. Thermal diffusivities were modeled using different two-phase composite models. These materials exhibit excellent high temperature properties and are attractive for further development for thermal protection systems.
Silicon Carbides, Thermal Analysis, Ceramics, Mathematical Models, Thermal Insulation Materials-Thermal Properties, 36 Materials Science, Materials-Thermal Properties, Thermal Conductivity, Ceramic Materials-Fracture, Fracture Properties, Specific Heat, Thermal Diffusivity, Hot Pressing, Flexural Strength, Zirconium Borides, Hafnium Borides
Silicon Carbides, Thermal Analysis, Ceramics, Mathematical Models, Thermal Insulation Materials-Thermal Properties, 36 Materials Science, Materials-Thermal Properties, Thermal Conductivity, Ceramic Materials-Fracture, Fracture Properties, Specific Heat, Thermal Diffusivity, Hot Pressing, Flexural Strength, Zirconium Borides, Hafnium Borides
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