Physical properties and radiation tolerance of high-entropy pyrochlores Gd2(Ti0.25Zr0.25Sn0.25Hf0.25)2O7 and individual pyrochlores Gd2X2O7 (X= Ti, Zr, Sn, Hf) from first principles calculations
材料科学
高熵合金
结晶学
冶金
微观结构
化学
作者
Chen-Guang Liu,Xiaodong Wen,Tan Shi,Fei Gao,Yu Hong Li
The physical properties of high-entropy ceramics (HEC) of Gd 2 (Ti 0.25 Zr 0.25 Sn 0.25 Hf 0.25 ) 2 O 7 and Gd 2 X 2 O 7 (X = Ti, Zr, Sn, Hf) are investigated using first principles method. The structural properties, anti-site defect energetics , mechanical properties and electronic properties are compared. The lattice constant of HEC is within the range of its constituent pyrochlores , and the local lattice distortion presents in HEC. The cation anti-site defect is much easier to form in HEC than in pyrochlore, which implies that HEC can easily transfer to disordered fluorite structure and exhibit stronger radiation tolerance. The “high entropy” at B site of A 2 B 2 O 7 -type pyrochlore had no obvious effect on mechanical properties. The electronic properties of HEC and pyrochlore are characterized by projected density of states distribution and Bader charge, and the causes of HEC lattice distortion are investigated.