<p>Samples plots of plaque wall stress, strain, wall shear stress and velocity on a mid-cut plane showing basic solution features.</p
Atherosclerotic disease, and the subsequent complications of thrombosis and plaque rupture, has been...
<p>A) Mean and B) maximum shear stresses. In both plots, the shear readings spike at 90 degrees, whe...
Aims: Atherosclerotic plaques develop in low shear stress regions. In the more advanced phase of the...
<p>(a) Flow streamlines at the middle height plane. (b) Shear stress at the bottom wall. (c) Distrib...
<p>(A) The rectangular area (9 mm × 4 mm) of the main microchannel was considered the cell culture z...
<p>Although at each height the shear varies linearly with the spinning rates, the slopes differ from...
Computational modelling is a powerful tool to identify stresses in diseased arteries and predict whi...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
Atherosclerotic disease, and the subsequent complications of thrombosis and plaque rupture, has been...
Biomechanical models are used extensively to study risk factors, such as peak stresses, for vulnerab...
Once plaques intrude into the lumen, the shear stress they are exposed to alters with hitherto unkno...
An experimental investigation of the wall shear stress distribution downstream of a backward-facing ...
Human coronary plaque wall thickness correlated positively with flow shear stress and negatively wit...
An experiment slide of photoelastic stress patterns showing boundaries and boundary stresseshttps://...
Cardiovascular diseases are one of the major causes of death in the world; atherosclerosis being one...
Atherosclerotic disease, and the subsequent complications of thrombosis and plaque rupture, has been...
<p>A) Mean and B) maximum shear stresses. In both plots, the shear readings spike at 90 degrees, whe...
Aims: Atherosclerotic plaques develop in low shear stress regions. In the more advanced phase of the...
<p>(a) Flow streamlines at the middle height plane. (b) Shear stress at the bottom wall. (c) Distrib...
<p>(A) The rectangular area (9 mm × 4 mm) of the main microchannel was considered the cell culture z...
<p>Although at each height the shear varies linearly with the spinning rates, the slopes differ from...
Computational modelling is a powerful tool to identify stresses in diseased arteries and predict whi...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
Atherosclerotic disease, and the subsequent complications of thrombosis and plaque rupture, has been...
Biomechanical models are used extensively to study risk factors, such as peak stresses, for vulnerab...
Once plaques intrude into the lumen, the shear stress they are exposed to alters with hitherto unkno...
An experimental investigation of the wall shear stress distribution downstream of a backward-facing ...
Human coronary plaque wall thickness correlated positively with flow shear stress and negatively wit...
An experiment slide of photoelastic stress patterns showing boundaries and boundary stresseshttps://...
Cardiovascular diseases are one of the major causes of death in the world; atherosclerosis being one...
Atherosclerotic disease, and the subsequent complications of thrombosis and plaque rupture, has been...
<p>A) Mean and B) maximum shear stresses. In both plots, the shear readings spike at 90 degrees, whe...
Aims: Atherosclerotic plaques develop in low shear stress regions. In the more advanced phase of the...