Thermal properties and elastic constants of ζ‐Ta <sub>4</sub> C <sub>3−</sub> <i> <sub>x</sub> </i>
Evan C. Schwind, Gregory E. Hilmas, William G. Fahrenholtz
Abstract
Abstract Thermal and elastic properties were measured for ceramics that contained as much as 96 wt% zeta phase tantalum carbide (ζ‐Ta 4 C 3− x ). The ceramics were produced from tantalum hydride that was milled to reduce particle size and then blended with carbon. Powders were reaction hot‐pressed at 1800°C for 2 hours under a flowing He environment, which resulted in ζ‐Ta 4 C 3− x that was about 99% dense. The main secondary phases present in the reacted ceramic were TaC and Ta 2 O 5 . ζ‐Ta 4 C 3− x had a thermal conductivity of 9.6 W/m·K and an electrical resistivity of 160 ± 4.2 μΩ‐cm, which are lower and higher than those of TaC, respectively. The Young's modulus was 379 ± 5 GPa and the hardness was 5.1 ± 0.7 GPa, which are also both lower than TaC. This study is the first to report the thermal properties and elastic moduli of high‐purity ζ‐Ta 4 C 3− x .