화학공학소재연구정보센터
Journal of the American Ceramic Society, Vol.83, No.9, 2246-2250, 2000
Elastic constants of erbia single crystals
The elastic properties of single-crystalline erbia (Er2O3) at room temperature have been investigated using resonant ultrasound spectroscopy. The three independent stiffness constants of anisotropic Er2O3 cubic type-C crystals have been measured. The values of the stiffness constants were c(11) 256.4 GPa, c(12) = 1 16.8 Cpa, and c(44) = 75.2 GPa, From the stiffness constants, the estimated values for dense polycrystalline erbia for Young's modulus, the shear modulus, the hulk modulus, and Poisson's ratio at room temperature were 179 GPa, 67 GPa, 183.3 Cpa, and 0337, respectively. The value of Young's modulus is a minimum along [001] and a maximum along [111], The value of the shear modulus is independent of the direction in the (001) and (111) planes, whereas it decreases in (1(1) over bar 0) from 75 GPa along [001] to 55 GPa along [110].