Krausser–Samwer–Zaccone equation
The Krausser–Samwer–Zaccone equation describes the viscosity of liquids, including supercooled liquids upon approaching the glass transition, in terms of physical parameters; it is named after J. Krausser, Konrad Samwer, and Alessio Zaccone. The Krausser–Samwer–Zaccone equation for the viscosity of a liquid reads:[1]
![{\displaystyle \eta =\exp {\left\{{\frac {V_{c}C_{G}}{k_{B}T}}\exp {\left[(2+\lambda )\alpha _{T}T_{g}\left(1-{\frac {T}{T_{g}}}\right)\right]}\right\}}}](https://wikimedia.org/api/rest_v1/media/math/render/svg/55795f97a98b2aa06abaef31e31ce74f83542cf9)
where is the thermal expansion coefficient of the liquid, and is a parameter which measures the steepness of the repulsive part of the interatomic potential.[1][2]
References[edit]
- ↑ 1.0 1.1 Krausser, J.; Samwer, K.; Zaccone, A. (2015). "Interatomic repulsion softness directly controls the fragility of supercooled metallic melts". Proceedings of the National Academy of Sciences of the USA. 112 (45): 13762. doi:10.1073/pnas.1503741112.
- ↑ Krausser, Johannes; Lagogianni, Alexandra; Samwer, Konrad; Zaccone, Alessio (17 July 2018). "Reply to ``Comment on `Disentangling interatomic repulsion and anharmonicity in the viscosity and fragility of glasses' ". Physical Review B. 98 (1): 016202. doi:10.1103/PhysRevB.98.016202. Retrieved 15 August 2020.
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