ANISOTROPIC ELASTIC AND NONLINEAR ACOUSTIC PROPERTIES OF VERY DENSE TEXTURED BI2SR2CACU2O8+Y

The velocities of longitudinal and shear ultrasonic waves propagated i n very dense (95% of theoretical), highly-textured, ceramic Bi2Sr2CaCu 2O8+y (Bi2212) have been measured as functions of temperature (between 10 and 290 K) and hydrostatic pressure at 290 K. The main finding is a marked anisotropy of the elastic stiffness constants and their depen dences on pressure. We have observed an elastic stiffness constant in thea-b plane that is substantially greater than that in the c directio n. This observation is consistent with the crystallographic structure of Bi2212. The anomalous elastic effects and thermal hysteresis, obser ved previously by several groups in various Bi-based superconductors i n the range of 190-240 K, have not been found in the present material. Our observations suggest that these anomalies are not an inherent pro perty of Bi-based cuprates, but instead may depend on the oxygen conte nt and microstructure of the ceramic material. An analysis of sound ve locity in a polycrystalline array of elastically anisotropic crystalli tes is presented.