Ergodicity breaking of an inorganic glass in aging near Tg probed by elasticity relaxation

Abstract

We performed a series of aging experiments of an inorganic glass (As2Se3) at a temperature T2 near the glass transition point Tg by first relaxing it at T1. The relaxation of Young's modulus was monitored, which was(almost if not ideally) exponential with a T1-dependent relaxation time τ(T1). We demostrate the Kovacs' paradox for the first time in an inorganic glasses. Associated with the divergence of τ, the quasi-equilibrated Young's modulus E∞ does not converge either. An elastic model of relaxation time and a Mori-Tanaka analysis of E∞ lead to a similar estimate of the persistent memory of the history, ergodicity breaking within the accessible experimental time. Experiments with different T2 exhibits a critical temperature Tp Tg, i.e., when T2 > Tp, both τ and E∞ converge.