Comparing two sources of physical aging: Temperature vs electric field

Jan P. Gabriel; Ranko Richert

doi:10.1063/5.0176957

Comparing two sources of physical aging: Temperature vs electric field

Jan P. Gabriel
, Ranko Richert

Research output: Contribution to journal › Journal article › Research › peer-review

9 Citations (Scopus)

Abstract

Physical aging is the process of a system evolving toward a new equilibrium, and thus the response to a change in external parameters such as temperature T, pressure p, or static electric field E. Using a static electric field has been shown to access physical aging above the glass transition temperature Tg, in the regime of milliseconds or faster, but the relation to its temperature jump counterpart has not been investigated to date. This work compares temperature and field induced physical aging in the limit of small perturbations for supercooled tributyl phosphate. It is found that both structural recovery dynamics are very similar, and that they match the collective reorientational dynamics as observed by dielectric relaxation. The results facilitate expanding the range of aging experiments to well above Tg, where a comparison with structural relaxation in equilibrium is straightforward, thus improving models of structural recovery and physical aging.

Original language	English
Article number	164502
Journal	The Journal of Chemical Physics
Volume	159
Issue number	16
ISSN	0021-9606
DOIs	https://doi.org/10.1063/5.0176957
Publication status	Published - 28 Oct 2023

Bibliographical note

This article was found as a 'Free version' at the Publisher on November 8, 2023. If the access closes, please contact [email protected]

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10.1063/5.0176957

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AU - Richert, Ranko

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Y1 - 2023/10/28

N2 - Physical aging is the process of a system evolving toward a new equilibrium, and thus the response to a change in external parameters such as temperature T, pressure p, or static electric field E. Using a static electric field has been shown to access physical aging above the glass transition temperature Tg, in the regime of milliseconds or faster, but the relation to its temperature jump counterpart has not been investigated to date. This work compares temperature and field induced physical aging in the limit of small perturbations for supercooled tributyl phosphate. It is found that both structural recovery dynamics are very similar, and that they match the collective reorientational dynamics as observed by dielectric relaxation. The results facilitate expanding the range of aging experiments to well above Tg, where a comparison with structural relaxation in equilibrium is straightforward, thus improving models of structural recovery and physical aging.

AB - Physical aging is the process of a system evolving toward a new equilibrium, and thus the response to a change in external parameters such as temperature T, pressure p, or static electric field E. Using a static electric field has been shown to access physical aging above the glass transition temperature Tg, in the regime of milliseconds or faster, but the relation to its temperature jump counterpart has not been investigated to date. This work compares temperature and field induced physical aging in the limit of small perturbations for supercooled tributyl phosphate. It is found that both structural recovery dynamics are very similar, and that they match the collective reorientational dynamics as observed by dielectric relaxation. The results facilitate expanding the range of aging experiments to well above Tg, where a comparison with structural relaxation in equilibrium is straightforward, thus improving models of structural recovery and physical aging.

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VL - 159

JO - The Journal of Chemical Physics

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Comparing two sources of physical aging: Temperature vs electric field

Abstract

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