The flow of blood is a non-Newtonian phenomenon, best described by Bingham fluids. We have given the basic balance equations and criteria. Due to the huge variation of the vessel diameters and consequently the complete flow behaviours of the blood in the actual vessel, we describe the similarities of flows
In this article we study the blood flow in models of branching blood vessels. Blood is a heterogeneo...
We investigated how non-Newtonian viscosity behavior affects the flow characteristics of blood cells...
Abstract. The viscoelastic properties of blood are dominated by microstructures formed by red cells....
Blood is a complex suspension that demonstrates several non-Newtonian rheological characteristics su...
numerical and experimental investigation of unsteady entry flow in a 90° curved tube is presented to...
This paper explores the change in force required within the blood vessels of the body if blood were ...
Human blood is composed of red cells, white blood cells, and platelets in a fluid called plasma that...
Although blood is known to have shear-thinning and viscoelastic properties, the effects of such prop...
A numerical and experimental investigation of unsteady entry #ow in a 903 curved tube is presented t...
Laser Doppler anemometry experiments and finite element simulations of steady flow in a three dimens...
The goal of this project is to develop a CFD model of blood to predict hemolysis due to mechanical ...
It is well known that blood exhibits non-Newtonian viscosity, but it is generally modeled as a Newto...
Abstract It is well known that blood exhibits non-Newtonian viscosity, but it is generally modeled a...
Measurements made for oscillatory flow of blood in circular tubes show that blood possesses elastic ...
The significance of non-Newtonian hemodynamics of small blood vessels is addressed via the descripti...
In this article we study the blood flow in models of branching blood vessels. Blood is a heterogeneo...
We investigated how non-Newtonian viscosity behavior affects the flow characteristics of blood cells...
Abstract. The viscoelastic properties of blood are dominated by microstructures formed by red cells....
Blood is a complex suspension that demonstrates several non-Newtonian rheological characteristics su...
numerical and experimental investigation of unsteady entry flow in a 90° curved tube is presented to...
This paper explores the change in force required within the blood vessels of the body if blood were ...
Human blood is composed of red cells, white blood cells, and platelets in a fluid called plasma that...
Although blood is known to have shear-thinning and viscoelastic properties, the effects of such prop...
A numerical and experimental investigation of unsteady entry #ow in a 903 curved tube is presented t...
Laser Doppler anemometry experiments and finite element simulations of steady flow in a three dimens...
The goal of this project is to develop a CFD model of blood to predict hemolysis due to mechanical ...
It is well known that blood exhibits non-Newtonian viscosity, but it is generally modeled as a Newto...
Abstract It is well known that blood exhibits non-Newtonian viscosity, but it is generally modeled a...
Measurements made for oscillatory flow of blood in circular tubes show that blood possesses elastic ...
The significance of non-Newtonian hemodynamics of small blood vessels is addressed via the descripti...
In this article we study the blood flow in models of branching blood vessels. Blood is a heterogeneo...
We investigated how non-Newtonian viscosity behavior affects the flow characteristics of blood cells...
Abstract. The viscoelastic properties of blood are dominated by microstructures formed by red cells....