Fabrication and characterization of polymer‐derived high‐entropy carbide ceramic powders
Bin Du, Honghua Liu, Yanhui Chu
Abstract
Abstract Polymer‐derived ceramic (PDC) route has been widely used to fabricate various ceramics or ceramic‐matrix composites in recent years. However, the synthesis of high‐entropy ceramics via PDC route has rarely been reported until now. Herein, we successfully synthesized a class of high‐entropy carbides, namely (Hf 0.25 Nb 0.25 Zr 0.25 Ti 0.25 )C (HEC‐1), via PDC route. The polymer‐derived HEC‐1 ceramics consisted of numerous superfine particles with the average particle size ~800 nm. Meanwhile, they possessed a rock‐salt structure of metal carbides and high‐compositional uniformity from nanoscale to microscale. In addition, the as‐obtained HEC‐1 ceramics had a low oxygen impurity content of 0.51% and a low free carbon impurity content of 2.56%. This work will open up a new research field on the fabrication of high‐entropy ceramics or high‐entropy ceramic‐matrix composites via PDC route.