Abstract
The definition of viscosity. Consider a fluid located between two parallel plates with distance h and velocity difference v. The shear force, F, divided by the contact area, A, between the liquid and the plate is the shear stress, F/A = τ. The shear rate is the difference in velocity between the different fluid layers thus the shear rate is γ = v/h. The ratio of shear stress and shear rate is the viscosity, η, and is a material property of the fluid. If the ratio of shear rate and shear stress is constant, as for plasma, we call the fluid Newtonian. Blood has a nonlinear relation between shear rate and shear stress.
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References
Merrill EW. Rheology of blood. Physiol Rev. 1969;49:863–88.
Scott Blair GW, Spanner DC. An introduction to biorheology. Amsterdam: Elsevier Scientific Publishing; 1974.
Pries AR, Secomb TW, Gessner T, Sperandio MB, Gross JF, Gaehtgens P. Resistance to blood flow in microvessels in vivo. Circ Res. 1994;75:904–15.
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Westerhof, N., Stergiopulos, N., Noble, M.I.M., Westerhof, B.E. (2019). Viscosity. In: Snapshots of Hemodynamics. Springer, Cham. https://doi.org/10.1007/978-3-319-91932-4_1
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DOI: https://doi.org/10.1007/978-3-319-91932-4_1
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