Blood and erythrocyte suspensions have non-linear pressure-flow curves and so do not possess a unique Newtonian coefficient of viscosity (or its reciprocal, the fluidity) except in the physically unrealizable limits of infinite flow rate and tube radius. However, three coefficients can be defined which are related mathematically to one another and which converge in these infinite limits. They are first, the apparent fluidity, which is proportional to the slope of the line joining any given point on the pressure-flow curve with the origin; second, the differential fluidity, which is proportional to the slope of the pressureflow curve itself at any given point; and third, the generalized fluidity which is proportional to the ratio of the shea...
The rheological properties of blood depend highly on the properties of its red blood cells: concentr...
The viscosity of blood, measured by the usual viscometers in which slip is not considered, is found ...
Surface tension driven microfluidic flows offer low-cost solutions for blood diagnostics due to the ...
Blood and erythrocyte suspensions have non-linear pressure-flow curves and so do not possess a uniqu...
Measurements made for oscillatory flow of blood in circular tubes show that blood possesses elastic ...
The earlier constitutive model of Fang & Owens (Biorheology, vol. 43, 2006, p. 637) and Owens (J. No...
The flow of blood is a non-Newtonian phenomenon, best described by Bingham fluids. We have given the...
In order to test the hypothesis that the increase of vascular resistance observed in vivo at low flo...
AbstractWe report on the rheology of dilute suspensions of red blood cells (RBC) and vesicles. The v...
We present a numerical analysis of the rheology of a suspension of red blood cells (RBCs) for differ...
The influence of the red cell concentration (per cent hematocrit) upon blood viscosity is well known...
The dynamics and deformation of red blood cells (RBCs) in microcirculation affect the flow resistanc...
Abstract. The viscoelastic properties of blood are dominated by microstructures formed by red cells....
In this article we study the blood flow in models of branching blood vessels. Blood is a heterogeneo...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
The rheological properties of blood depend highly on the properties of its red blood cells: concentr...
The viscosity of blood, measured by the usual viscometers in which slip is not considered, is found ...
Surface tension driven microfluidic flows offer low-cost solutions for blood diagnostics due to the ...
Blood and erythrocyte suspensions have non-linear pressure-flow curves and so do not possess a uniqu...
Measurements made for oscillatory flow of blood in circular tubes show that blood possesses elastic ...
The earlier constitutive model of Fang & Owens (Biorheology, vol. 43, 2006, p. 637) and Owens (J. No...
The flow of blood is a non-Newtonian phenomenon, best described by Bingham fluids. We have given the...
In order to test the hypothesis that the increase of vascular resistance observed in vivo at low flo...
AbstractWe report on the rheology of dilute suspensions of red blood cells (RBC) and vesicles. The v...
We present a numerical analysis of the rheology of a suspension of red blood cells (RBCs) for differ...
The influence of the red cell concentration (per cent hematocrit) upon blood viscosity is well known...
The dynamics and deformation of red blood cells (RBCs) in microcirculation affect the flow resistanc...
Abstract. The viscoelastic properties of blood are dominated by microstructures formed by red cells....
In this article we study the blood flow in models of branching blood vessels. Blood is a heterogeneo...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
The rheological properties of blood depend highly on the properties of its red blood cells: concentr...
The viscosity of blood, measured by the usual viscometers in which slip is not considered, is found ...
Surface tension driven microfluidic flows offer low-cost solutions for blood diagnostics due to the ...