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Published 1996 | public
Book Section - Chapter

Beryllium Diffusion in the Supercooled Liquid and Glassy State of the Zr_(41.2)Ti_(13.8)Cu_(12.5)Ni_(10)Be_(22.5) Alloy

Abstract

The self diffusivity of Be in the bulk metallic amorphous Zr_(41.2)Ti_(13.8)Cu_(12.5)Ni_(10)Be_(22.5) alloy is investigated by high energy elastic backscattering of ^4He^(2+) ions in the temperature range between 433K and 663K. Below the glass transition temperature, the data suggest a single atomic jump diffusion behavior of Be with a migration enthalpy of 1.05eV/atom and a pre-exponential factor of 1.8·10^(-11)m^2/s. Above the glass transition, the diffusivity of Be increases by two orders of magnitude over a temperature interval of 40K. By taking into account the change in configurational entropy due to the glass transition, we can explain the mechanism for diffusion of Be in the supercooled liquid state of Zr_(41.2)Ti_(13.0)Ni _(10)Cu_(12.5)Be_(22.5) by single atomic jumps in a slowly changing configuration of neighboring atoms. The corresponding migration enthalpy is the same as in the solid glass, and the number of neighboring atoms which influence the diffusion of Be is about 22.

Additional Information

© 1996 Transtec Publications. This work was supported by the U.S. Dept. of Energy under Grant No. DE-FG03-86ER45242, by the DFG via SFB 345, by the National Science Foundation [Grant DMR93-18931], and by the U.S. Army Research Office [Grant DAAH04-95-1-0233].

Additional details

Created:
August 20, 2023
Modified:
January 13, 2024