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Metal-Oxide Debye Temperature's and Elastic Constants: Estimation From Interionic Spacing
Published
Author(s)
H M. Ledbetter, Sudook A. Kim
Abstract
For cubic metal oxides, we show relationships between crystal-structure-volume properties and elastic-stiffness properties. The interionic distance (or the crystal structure plus volume) gives the bulk modulus B. The product of effective atomic mass and atomic volume gives the Debye temperature θD, which gives the shear modulus G. From B and G, we estimate other elastic constants such as Young modulus E and Poisson ratio υ. We apply this approach to twenty-three cubic metal oxides where there exists crystal-structure information, but no elastic-contant information. To develop the relationships, we consider elastic and related properties of seventeen cubic oxides.
Citation
Metal-Oxide Debye Temperature's and Elastic Constants: Estimation From Interionic Spacing
Volume
II
Publisher Info
Handbook of Elastic Properties of Solids, Fluids, and Gases ,
Ledbetter, H.
and Kim, S.
(2001),
Metal-Oxide Debye Temperature's and Elastic Constants: Estimation From Interionic Spacing, Handbook of Elastic Properties of Solids, Fluids, and Gases ,
(Accessed December 6, 2024)