High-temperature deformation in bulk polycrystalline hafnium carbide consolidated using spark plasma sintering

D. Demirskyi; O. Vasylkiv; K. Yoshimi

doi:10.1016/j.jeurceramsoc.2021.08.038

論文 High-temperature deformation in bulk polycrystalline hafnium carbide consolidated using spark plasma sintering

D. Demirskyi (National Institute for Materials Science) ; O. Vasylkiv (National Institute for Materials Science) ; K. Yoshimi

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D. Demirskyi, O. Vasylkiv, K. Yoshimi. High-temperature deformation in bulk polycrystalline hafnium carbide consolidated using spark plasma sintering. Journal of the European Ceramic Society. 2021, 41 (15), 7442-7449. https://doi.org/10.1016/j.jeurceramsoc.2021.08.038

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(abstract)

In this study, we report the three-point flexural strength and fracture toughness of monolithic hafnium carbide up to 2000 °C. HfC with different grain sizes was consolidated using the spark plasma sintering method. Coarse-grained monoliths showed a weak dependence on the strain rate during high-temperature tests at 1600 °C – 2000 °C. In contrast, results for the ceramics with a grain size below 20 μm indicated a positive dependence of the yield strength vs strain rate. This allowed us to identify the activation energy for high-temperature deformation in flexure as 370 kJ/mol. This level of activation energy is in satisfactory agreement with reports about the diffusion of C in hafnium carbide.

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