Litcius/Paper detail

Cr-assisted low-temperature densification of (Ti,Zr,Nb,Ta,Mo)C high-entropy carbides with ultrafine grain and enhanced hardness

Liu Yang, Jiaji Liang, Wei‐Ming Guo, Shi‐Kuan Sun, Yu Tian, Hua‐Tay Lin

2024Journal of Advanced Ceramics29 citationsDOIOpen Access PDF

Abstract

While the use of low-melting-point metals as sintering aids for high-entropy carbide (HEC) ceramics has been well-established, their existence can compromise hardness due to residual metallic inclusions. This study demonstrates an innovative strategy to meet this challenge, where (Ti, Zr, Nb, Ta, Mo)C high-entropy carbide ceramics with ultrafine grain and enhanced hardness are obtained through Cr-metal-assisted spark plasma sintering at a temperature as low as 1600 ℃. Result shows that the addition of 5 vol.% Cr metal promotes the formation of highly densified single HEC phase ceramics with a high relative density (98.4 %) and an ultra-fine grained microstructure (0.17 μm). This low-temperature densification mechanism can be attributed to Cr's solid-solution effect within the matrix and the increased carbon vacancies generated during sintering. The grain size of the (Ti, Zr, Nb, Ta, Mo)C ceramics with 5 vol.% Cr metal addition is significantly smaller than that of Cr-free (Ti, Zr, Nb, Ta, Mo)C ceramics sintered at 2000 ℃ (3.03 μm) or via traditional low-temperature liquid-phase sintering (1.3-1.5 μm). Importantly, the addition of 5 vol.% Cr metal substantially increases the hardness of ceramics, with a remarkable increase from 23.57 GPa to 28.16 GPa as compared to pure (Ti, Zr, Nb, Ta, Mo)C ceramics, owing to fine-grain strengthening and solid-solution strengthening mechanism. This work highlights the uniqueness of Cr metal as a sintering aid in achieving densification and hardness improvements in (Ti, Zr, Nb, Ta, Mo)C ceramics, offering a promising strategy of property improvement for further development of HEC materials in the near future.

Topics & Concepts

Materials scienceCarbideMetallurgyStructural materialHigh Entropy Alloys StudiesAdvanced materials and compositesHigh-Temperature Coating Behaviors
Cr-assisted low-temperature densification of (Ti,Zr,Nb,Ta,Mo)C high-entropy carbides with ultrafine grain and enhanced hardness | Litcius