Title of article
Breakdown of the fractional Stokes–Einstein relation in silicate liquids
Author/Authors
Mauro، نويسنده , , John C. and Ellison، نويسنده , , Adam J.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
4
From page
3924
To page
3927
Abstract
The fractional Stokes–Einstein relation postulates a direct relationship between conductivity and shear flow. Like viscosity, the electrical resistivity of a glass-forming liquid exhibits a non-Arrhenius scaling with temperature. However, while both viscosity and resistivity are non-Arrhenius, here we show that these two properties follow distinct functional forms. Through analysis of 821 unique silicate liquids, we show that viscosity is best represented using the Mauro–Yue–Ellison–Gupta–Allan (MYEGA) model, whereas the resistivity of the same compositions more closely follows the Avramov–Milchev (AM) equation. Our results point to two fundamentally different mechanisms governing viscous flow and conductivity and therefore cast doubt on the general validity of the fractional Stokes–Einstein relation.
Keywords
VISCOSITY , Transport properties , resistivity , MODELING , silicates
Journal title
Journal of Non-Crystalline Solids
Serial Year
2011
Journal title
Journal of Non-Crystalline Solids
Record number
1385043
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