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High-Entropy Rare Earth Tetraborides

Materials Science 2020-12-24 v1

Abstract

Six high-entropy rare earth tetraborides of the tetragonal UB4-prototyped structure have been successfully synthesized for the first time. The specimens are prepared from elemental precursors via high-energy ball mill and in-situ reactive spark plasma sintering. The sintered specimens are >98% in relative densities without detectable oxide impurities (albeit the presence of minor hexaborides in some compositions). No detectable secondary phase is observed in the composition (Y0.2_{0.2}Nd0.2_{0.2}Sm0.2_{0.2}Gd0.2_{0.2}Tb0.2_{0.2})B4_{4}, which is proven homogeneous at both microscale and nanoscale. The Vickers microhardness are determined to be ~13-15 GPa at a standard indentation load of 9.8 N. A scientifically interesting observation is represented by the anisotropic lattice distortion from the rule-of-mixture averages. This work expands the family of high-entropy ceramics via fabricating a new class of high-entropy borides with a unique tetragonal quasi-layered crystal structure.

Keywords

Cite

@article{arxiv.2012.12864,
  title  = {High-Entropy Rare Earth Tetraborides},
  author = {Mingde Qin and Qizhang Yan and Haoren Wang and Kenneth S. Vecchio and Jian Luo},
  journal= {arXiv preprint arXiv:2012.12864},
  year   = {2020}
}
R2 v1 2026-06-23T21:19:05.003Z