High-temperature elasticity of the fluorite-structure compounds CaF 2, SrF 2 and BaF 2

Abstract

Listen

Translate article

The elastic moduli of single-crystal CaF 2, SrF 2 and BaF 2 have been determined by the ultrasonic pulse superposition technique as a function of temperature from T = 298 to T = 650°K. These new data are consistent with other data obtained by ultrasonic pulse techniques in the region of room temperature and are superior to previous high-temperature data from resonance experiments. The elastic moduli ( c) are represented by quadratic functions in T over the experimental temperature range with the curvature in the same sense for all the moduli. Evaluation of the temperature derivatives of the elastic moduli at constant volume indicates that the dominant temperature effect is extrinsic for ( ∂K S / ∂T) P and intrinsic for ( ∂μ/ ∂T) P , where K S and μ are the isotropic bulk and shear moduli, respectively. For the series CaF 2SrF 2BaF 2, |( ∂c/ ∂T) p | decreases with increasing molar volume for all moduli; however there are no theoretical or empirical grounds on which to derive a simple relationship between ( ∂c/ ∂T) P and crystallographic parameters.