Steady flow measurements were carried out in a rigid three-dimensional model of the human carotid artery bifurcation at a Reynolds number of 640 and a flow division ratio of . Both axial and secondary velocities were measured with a laser-Doppler anemometer. In the bulb opposite to the flow divider a zone with negative axial velocities was found with a maximal diameter of about 60% of the local diameter of the branch and a cross-sectional extent of about 25% of the local cross-sectional area. In the bulb the maximum axial velocity shifted towards the divider wall and at the end of the bulb an axial velocity plateau arose near the non-divider wall. Halfway through the bulb, secondary flow showed a vortex through which fluid flowed towards th...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...
Steady flow measurements were carried out in a rigid three-dimensional model of the human carotid ar...
Steady flow measurements were carried out in a rigid three-dimensional model of the human carotid ar...
Steady flow measurements were carried out in a rigid three-dimensional model of the human carotid ar...
Steady flow measurements were carried out in a rigid three-dimensional model of the human carotid ar...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...
Steady flow measurements were carried out in a rigid three-dimensional model of the human carotid ar...
Steady flow measurements were carried out in a rigid three-dimensional model of the human carotid ar...
Steady flow measurements were carried out in a rigid three-dimensional model of the human carotid ar...
Steady flow measurements were carried out in a rigid three-dimensional model of the human carotid ar...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
Axial velocities were measured in an enlarged, two-dimensional, rigid model of the carotid artery bi...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...
In the present study, finite element calculations are performed of blood flow in the carotid artery ...