In the present paper, the nature of the fragility of liquids with a developed H-bond network is investigated. It is shown that the effective activation energy of the shear viscosity eta and the fragility parameter defined as m=d log eta/d(Tg/T)|t=t+g are immediately connected with the average number nH(T) of the H-bond per molecule. The consistency of the macroscopic (m) and the microscopic [M=d(u(2)(0)/
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| http://dx.doi.org/10.1103/PhysRevE.73.031201 | DOI Listing |
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Macro- and microdefinitions of fragility of hydrogen-bonded glass-forming liquids.
Phys Rev E Stat Nonlin Soft Matter Phys
March 2006
Department of Theoretical Physics, Odessa, National University, 2 Dvoryanskaya strasse, Odessa 65026, Ukraine.
In the present paper, the nature of the fragility of liquids with a developed H-bond network is investigated. It is shown that the effective activation energy of the shear viscosity eta and the fragility parameter defined as m=d log eta/d(Tg/T)|t=t+g are immediately connected with the average number nH(T) of the H-bond per molecule. The consistency of the macroscopic (m) and the microscopic [M=d(u(2)(0)/
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