Relaxation times at the rate-dependent glass transition

A. Pimenov; R. Böhmer; A. Loidl

Journal ArticleOPEN ACCESS

Relaxation times at the rate-dependent glass transition

Progress of Theoretical Physics Supplement (1997) (126) 185-190

DOI: 10.1143/PTPS.126.185

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Abstract

The structural relaxation time near the cooling rate dependent glass transition is determined self-consistently within the Moynihan-Narayanaswami formalism. In order to illustrate the method we analyze scanning calorimetry data from amorphous calcium-rubidium nitrate. A characteristic time scale of about 250 s is obtained at the conventionally defined glass transition. The occurrence of decoupled, faster relaxation modes is briefly discussed.

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APA

Pimenov, A., Böhmer, R., & Loidl, A. (1997). Relaxation times at the rate-dependent glass transition. Progress of Theoretical Physics Supplement, (126), 185–190. https://doi.org/10.1143/PTPS.126.185

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Relaxation times at the rate-dependent glass transition

Abstract

References Powered by Scopus

A Model of Structural Relaxation in Glass

Dependence of the Fictive Temperature of Glass on Cooling Rate

Enthalpy relaxation and recovery in amorphous materials

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