The dynamic fragility and apparent activation energy of bitumens as expressed by a modified Kaelble equation

The temperature dependence of the dynamics of glass-forming liquids can be characterized by the dynamic fragility (m) and apparent activation energy (Ea) at the glass transition temperature Tg. In this study, we derive analytical expressions that allow the calculation of these parameters from a modi...

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Bibliographic Details
Published in:Journal of non-crystalline solids 2018-11, Vol.499, p.289-299
Main Authors: Laukkanen, Olli-Ville, Winter, H. Henning
Format: Article
Language:English
Subjects:
Apparent activation energy
Bitumen
Dynamic fragility
Modified Kaelble equation
Rheology
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Summary:The temperature dependence of the dynamics of glass-forming liquids can be characterized by the dynamic fragility (m) and apparent activation energy (Ea) at the glass transition temperature Tg. In this study, we derive analytical expressions that allow the calculation of these parameters from a modified Kaelble equation which divides the temperature dependence into two regimes above and below a characteristic temperature Td. Special emphasis is given to the analysis of the Td parameter that can be considered as the rheological glass transition temperature. Rheological characterization is performed on twenty-seven bitumens originating from various crude oil sources and refining processes. Their dynamic fragilities and apparent activation energies are calculated at the calorimetric Tg and at Td. Bitumen can be classified as a strong glass-forming liquid, dynamic fragilities varying in the range of m(Tg) = 26 … 52 for the individual bitumen samples. The results indicate that m(Tg) and Ea(Tg) are linearly correlated with Tg, and these Tg-dependences are unusually strong in comparison to other classes of glass-forming liquids. However, dynamic fragilities and apparent activation energies evaluated at Td are nearly independent of the type of bitumen and show only a weak dependence on Td. •Modified Kaelble equation describes the temperature dependence of the time-temperature shift factor aT above and below Tg.•The modified Kaelble equation defines the temperature Td corresponding to the inflection point in the log aT versus T curve.•Dynamic fragility m and apparent activation energy Ea are expressed in terms of the modified Kaelble equation parameters.•In the case of different types of bitumens, m(Tg) and Ea(Tg) correlate linearly with Tg.•m(Tg) and Ea(Tg) show unusually strong Tg-dependences in bitumens as compared to other types of glass-forming liquids.
ISSN:0022-3093
1873-4812
DOI:10.1016/j.jnoncrysol.2018.07.036