Add to ORKGIn this work, Newtonian and non-Newtonian laminar blood flow in rectangular microchannels with symmetric and asymmetric atheroma were numerically studied. It was observed that the impact of symmetry of the atheroma is almost negligible and the non-Newtonian properties of blood leads to higher pressure drops and wall shear stresses than the ones obtained for Newtonian flows.The authors acknowledge the financial support provided by: EXPL/EMS-SIS/2215/2013 and PTDC/SAU-ENB/116929/2010 from FCT (Science and Technology Foundation), COMPETE, QREN and FEDER
A study about blood flow behaviour numerically and mathematically becomes invaluable tool in interpr...
The current study presents three-dimensional modeling and analysis of blood flow through artery sten...
AbstractIn present article, we have studied the blood flow through tapered artery with stenosis. The...
In this work, Newtonian and non-Newtonian laminar blood flow in rectangular microchannels with symme...
Wall shear rates and pressure developed in circulatory system play an important role on the developm...
In studying blood flow in the vessels, the characteristics of non-Newtonian fluid are important, con...
Wall shear rates and pressure developed in blood vessels play an important role on the development o...
AbstractAn unsteady analysis of a two-layered blood flow through a flexible artery under stenotic co...
What role do high and low wall shear stresses play in the deterioration of arteriole and capillary w...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
Arthrosclerosis means literally “arteries hardening”. However, arthrosclerosis it is a generic term ...
AbstractThe cause and development of many cardiovascular diseases are related to the nature of blood...
An important field of study in microfluidics is in the realm of blood rheology in microdevices. Many...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
A three-dimensional direct numerical simulation model coupled with the immersed boundary method has ...
A study about blood flow behaviour numerically and mathematically becomes invaluable tool in interpr...
The current study presents three-dimensional modeling and analysis of blood flow through artery sten...
AbstractIn present article, we have studied the blood flow through tapered artery with stenosis. The...
In this work, Newtonian and non-Newtonian laminar blood flow in rectangular microchannels with symme...
Wall shear rates and pressure developed in circulatory system play an important role on the developm...
In studying blood flow in the vessels, the characteristics of non-Newtonian fluid are important, con...
Wall shear rates and pressure developed in blood vessels play an important role on the development o...
AbstractAn unsteady analysis of a two-layered blood flow through a flexible artery under stenotic co...
What role do high and low wall shear stresses play in the deterioration of arteriole and capillary w...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
Arthrosclerosis means literally “arteries hardening”. However, arthrosclerosis it is a generic term ...
AbstractThe cause and development of many cardiovascular diseases are related to the nature of blood...
An important field of study in microfluidics is in the realm of blood rheology in microdevices. Many...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
A three-dimensional direct numerical simulation model coupled with the immersed boundary method has ...
A study about blood flow behaviour numerically and mathematically becomes invaluable tool in interpr...
The current study presents three-dimensional modeling and analysis of blood flow through artery sten...
AbstractIn present article, we have studied the blood flow through tapered artery with stenosis. The...