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A porous-medium approach for modeling heart mechanics. I. theory
Shaul Sorek
, Samuel Sideman
Research output
:
Contribution to journal
›
Article
›
peer-review
9
Scopus citations
Overview
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Dive into the research topics of 'A porous-medium approach for modeling heart mechanics. I. theory'. Together they form a unique fingerprint.
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Mathematics
Blood Pressure
99%
Heart
76%
Porous Media
68%
Mechanics
68%
Cardiac
67%
Blood
59%
Muscle
46%
Modeling
46%
Fiber
30%
Myocardium
28%
Driving Force
24%
Darcy's Law
23%
Blood Flow
23%
Pressure Gradient
22%
Constitutive Law
22%
Balance Equations
21%
Cavity
19%
Compatibility
18%
Momentum
16%
Contraction
14%
Inclusion
14%
Fluid
13%
Motion
12%
Derivative
10%
Concepts
9%
Agriculture & Biology
porous media
100%
mechanics
78%
blood pressure
70%
heart
55%
blood
31%
myocardial contraction
28%
momentum
23%
myocardium
18%
muscle fibers
17%
blood flow
17%
translation (genetics)
15%
chemical derivatives
13%
fluids
13%
muscles
11%
methodology
4%
Engineering & Materials Science
Blood pressure
82%
Porous materials
69%
Blood
65%
Mechanics
61%
Muscle
33%
Fibers
24%
Pressure gradient
19%
Momentum
16%
Derivatives
14%
Fluxes
14%
Fluids
11%
Chemical Compounds
Blood Pressure
89%
Mechanics
80%
Velocity
29%
Strain
24%
Momentum
23%
Fiber
22%
Force
11%
Flow
11%
Modification
9%
Mixture
7%
Time
6%
Surface
5%
Medicine & Life Sciences
Mechanics
74%
Heart
46%
Blood Pressure
45%
Endocardium
23%
Stress Fibers
22%
Muscles
21%
Blood Flow Velocity
20%
Heart Ventricles
15%
Myocardium
14%