Thermal kinetics and glass stability criteria of the Se70Te20Cd10 chalcogenide glass

Abstract

The results of differential thermal analysis of the Se70Te20Cd10 glass under non-isothermal settings are presented and analyzed. The heating rate affects the temperature of the glass transition (Tg), the onset temperature of crystallization (Tc) and the peak temperature of crystallization (Tp). The glass transition activation energy (Eg), the crystallization activation energy (Ec), the Hurby number (Hr) and the order parameter (n) were all calculated. The results show that the rate of crystallization is connected to heat stability and glass-forming capabilities for the current composition. The results indicate two-dimensional development for the composition Se70Te20Cd10 in accordance with the Avrami exponent (n).