J. D. Hernández Velázquez, and , A. Gama Goicochea*,
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引用次数: 0
Abstract
The shear viscosity (η) and kinetic friction coefficient (μ) of highly confined, quasi-two-dimensional ionic liquids (2D ILs) subject to stationary linear flow at constant temperature are studied in this work through coarse-grained numerical simulations. Using stationary state linear flow under increasing shear rate (γ̇), η and μ are predicted as functions of γ̇ for growing coupling constant values (Γ*). The structural changes of the fluid due to the increasing coupling of the charged particles are found to yield increasing shear viscosity and friction coefficient. Shear-thinning is found in all systems, regardless of the value of Γ*. Additionally, it is shown that η and μ obey universal scaling laws, η ∼ γ̇ζ and μ ∼ γ̇κ, respectively, with the exponents fulfilling the relationship κ – ζ = 1, in agreement with previous reports by other groups. The implications of our predictions are discussed, in the context of current applications.
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