Review of Novel High-Entropy Protective Materials: Wear, Irradiation, and Erosion Resistance Properties

Author(s)

Feltrin, Ana C.; Xing, Qiuwei; Akinwekomi, Akeem Damilola; Waseem, Owais Ahmed; Akhtar, Farid

Abstract

By their unique compositions and microstructures, recently developed high-entropy materials (HEMs) exhibit outstanding properties and performance above the threshold of traditional materials. Wear- and erosion-resistant materials are of significant interest for different applications, such as industrial devices, aerospace materials, and military equipment, related to their capability to tolerate heavy loads during sliding, rolling, or impact events. The high-entropy effect and crystal lattice distortion are attributed to higher hardness and yield stress, promoting increased wear and erosion resistance in HEMs. In addition, HEMs have higher defect formation/migration energies that inhibit the formation of defect clusters, making them resistant to structural damage after radiation. Hence, they are sought after in the nuclear and aerospace industries. The concept of high-entropy, applied to protective materials, has enhanced the properties and performance of HEMs. Therefore, they are viable candidates for today’s demanding protective materials for wear, erosion, and irradiation applications.

Date issued

2022-12-30

URI

https://hdl.handle.net/1721.1/146993

Department

Massachusetts Institute of Technology. Plasma Science and Fusion Center

Publisher

Multidisciplinary Digital Publishing Institute

Citation

Entropy 25 (1): 73 (2023)

Version: Final published version