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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
11
Scopus citations
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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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Keyphrases
Blood Pressure
100%
Porous Media Approach
100%
Heart Mechanics
100%
Endocardium
66%
Pressure-strain
66%
Blood Flow
33%
Constitutive Law
33%
Momentum Balance Equation
33%
Solids Velocity
33%
Stress-strain
33%
Ventricle
33%
Muscle Activity
33%
Myocardium
33%
Cardiac System
33%
Muscle Fiber
33%
Cardiac Ventricle
33%
Solid Matrix
33%
Strain Patterns
33%
Time Derivative
33%
Mixture Theory
33%
Fluid-solid
33%
Fiber Strain
33%
Fiber Stress
33%
Cardiac Wall
33%
Cyclic Contraction
33%
Impermeable Surfaces
33%
Blood Pressure Gradient
33%
Forchheimer's Law
33%
Compatibility Law
33%
Pressure Stress
33%
Modified Darcy's Law
33%
Engineering
Driving Force
100%
Momentum Balance Equation
100%
Pressure Gradient
100%
Darcy's Law
100%
Muscle Fiber
100%
Solid Matrix
100%
Forchheimer Law
100%
Fibre Stress
100%
Fibre Strain
100%
Pressure Stress
100%
Impermeable Surface
100%