Engineering
Radial Strength
100%
Fiber Orientation
66%
Constitutive Model
66%
Numerical Modeling
66%
Fluid-Structure Interaction
66%
Prestress
66%
Anisotropic
66%
Integration Method
66%
Reduced Order Model
66%
Discretization
66%
Tissue Mechanics
66%
Numerical Integration
66%
Permanent Set
66%
Inelastic Response
66%
Computational Efficiency
66%
Fiber Dispersion
66%
Patient Specific
66%
Rigid Wall
44%
Term Response
33%
Parameter Set
22%
Influencing Parameter
22%
Boundary Condition
22%
Simulation Result
22%
Flow Condition
22%
Stress Rupture
22%
Newtonian Behaviour
22%
Clinical Application
22%
Material Model
22%
Stress Model
22%
Material Science
Finite Element Method
66%
Pseudoelasticity
66%
Finite Strain
66%
Stress Measurement
66%
Viscoelasticity
66%
Morphology
66%
Mechanical Strength
33%
Hyperelastic Material
33%
Constitutive Modeling
33%
Stress Softening
33%
Anisotropic Material
33%
Anisotropy
33%
Computational Fluid Dynamics
11%