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Autori principali: Riechers, Birte, Roed, Lisa A., Mehri, Saeed, Ingebrigtsen, Trond S., Hecksher, Tina, Dyre, Jeppe C., Niss, Kristine
Natura: Preprint
Pubblicazione: 2021
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Accesso online:https://arxiv.org/abs/2109.11832
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author Riechers, Birte
Roed, Lisa A.
Mehri, Saeed
Ingebrigtsen, Trond S.
Hecksher, Tina
Dyre, Jeppe C.
Niss, Kristine
author_facet Riechers, Birte
Roed, Lisa A.
Mehri, Saeed
Ingebrigtsen, Trond S.
Hecksher, Tina
Dyre, Jeppe C.
Niss, Kristine
contents The noncrystalline glassy state of matter plays a role in virtually all fields of materials science and offers complementary properties to those of the crystalline counterpart. The caveat of the glassy state is that it is out of equilibrium and therefore exhibits physical aging, i.e., material properties change over time. For half a century, the physical aging of glasses has been known to be described well by the material-time concept, although the existence of a material time has never been directly validated. We do this here by successfully predicting the aging of the molecular glass 4-vinyl-1,3-dioxolan-2-one from its linear relaxation behavior. This establishes the defining property of the material time. Via the fluctuation-dissipation theorem, our results imply that physical aging can be predicted from thermal-equilibrium fluctuation data, which is confirmed by computer simulations of a binary liquid mixture.
format Preprint
id arxiv_https___arxiv_org_abs_2109_11832
institution arXiv
publishDate 2021
record_format arxiv
spellingShingle Predicting nonlinear physical aging of glasses from equilibrium relaxation via the material time
Riechers, Birte
Roed, Lisa A.
Mehri, Saeed
Ingebrigtsen, Trond S.
Hecksher, Tina
Dyre, Jeppe C.
Niss, Kristine
Soft Condensed Matter
The noncrystalline glassy state of matter plays a role in virtually all fields of materials science and offers complementary properties to those of the crystalline counterpart. The caveat of the glassy state is that it is out of equilibrium and therefore exhibits physical aging, i.e., material properties change over time. For half a century, the physical aging of glasses has been known to be described well by the material-time concept, although the existence of a material time has never been directly validated. We do this here by successfully predicting the aging of the molecular glass 4-vinyl-1,3-dioxolan-2-one from its linear relaxation behavior. This establishes the defining property of the material time. Via the fluctuation-dissipation theorem, our results imply that physical aging can be predicted from thermal-equilibrium fluctuation data, which is confirmed by computer simulations of a binary liquid mixture.
title Predicting nonlinear physical aging of glasses from equilibrium relaxation via the material time
topic Soft Condensed Matter
url https://arxiv.org/abs/2109.11832