Abstract
AbstractThe structural relaxation of chalcogenide glasses is discussed within Tool–Narayanaswamy–Moynihan (TNM) formalism. The TNM parameters for more than 70 different glassy compositions are compared on the basis of the relaxation rate defined as Rf(ΔT) = −(dTf/dlogt)i at the inflection point of the isothermal relaxation curve plotted on a logarithmic timescale. The Rf(ΔT) depends on the TNM parameter ß and the parameter σ, combining the nonlinearity parameter x, the effective activation energy h* or the fragility m. It is shown that Rf(10) estimated at 10 K below Tg is useful for the prediction of structural relaxation kinetics in different amorphous materials. The chalcogenide glasses are, for example, compared with oxide glasses and organic polymers. For all these materials, the Rf(10) versus σ plot shows a well‐defined pattern that is thoroughly discussed.
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