Porosity Effects on Oxidation of Ultra-High-Temperature Ceramics
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Publisher
Springer Science and Business Media LLC
Link
https://link.springer.com/content/pdf/10.1007/s11665-024-09552-x.pdf
Reference44 articles.
1. Fahrenholtz, W.G., and G.E. Hilmas. 2017. Ultra-High Temperature Ceramics: Materials for Extreme Environments. Scripta Materialia 129: 94–99.
2. Zapata-Solvas, E., D.D. Jayaseelan, P.M. Brown, and W.E. Lee. 2015. Effect of Oxidation on Room Temperature Strength of $${\text{ZrB}}_{2}$$ and $${\text{HfB}}_{2}$$ Based Ultra High Temperature Ceramics. Adv. Appl. Ceram. 114: 407–417.
3. DeGregoria, A.J., M.B. Ruggles-Wrenn, and G.E. Pry. 2023. Oxidation of Hafnium Diboride–Silicon Carbide at 1500 $$^{\circ }$$C in Air; Effect of Compressive Stress. J. Mater. Eng. Perform. 32: 6747–6758.
4. Bakhit, B., et al. 2020. Improving the High-Temperature Oxidation Resistance of $${\text{TiB}}_{2}$$ Thin Films by Alloying with $${\text{Al}}$$. Acta Materialia 196: 677–689.
5. Zeng, F., et al. 2023. The Oxidation Behaviors of $${\text{TiB}}_{1.73}, {\text{Al}}_{0.59} {\text{Ti}}_{0.41} {\text{N}}$$, and $${\text{TiB}}_{1.73}/{\text{Al}}_{0.59} {\text{Ti}}_{0.41} {\text{N}}$$ Coatings Deposited by High-Power Impulse Magnetron Sputtering Method. Surface Coatings Technol. 457: 129294.
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