This review paper discusses the methods of estimating the activation energy of the glass relaxation from DSC experiments that include heating through the glass transition, short
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From optical fiber to high-tech displays, glass relaxation plays a critical role. Due to the non-equilibrium nature of glass, there is a constant evolution associated with relaxation
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Dear Colleagues, In the application of classical nucleation theory to the theoretical description of crystallization of liquids and glasses, it is assumed as a rule that the nucleation
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The enthalpy relaxation of the glass was measured using differential scanning calorimetry, and there were very small enthalpy
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Glass relaxation can result in a non-reversible glass transition upon a cooling/reheating cycle. Here, based on molecular dynamics simulations, we present a novel
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The reverse kinetic process of the glass transition, viz., relaxation in liquids and glasses [4], also remains one of the oldest, most thoroughly studied and yet unsolved problems [3].
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A major stumbling block in our understanding of glass and glass phenomena is the elusive relationship between relaxation dynamics
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A major stumbling block in our understanding of glass and glass phenomena is the elusive relationship between relaxation dynamics and glass structure. Here, we developed in
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Here, we build a spatio-temporal map of the relaxation dynamics of a highly stable glass into its supercooled liquid using real-time atomic force microscopy imaging.
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(DOI: 10.1103/PHYSREVE.103.062606) This work proposes a fundamental thermodynamic description of structural relaxation in glasses by establishing a link between
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We also report the distribution of relaxation times and energy barrier heights underpinning stretched exponential relaxation. It is proposed that this framework may be used
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The enthalpy relaxation of the glass was measured using differential scanning calorimetry, and there were very small enthalpy relaxation in alkali-free aluminosilicate glasses
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