Pages that link to "Item:Q3559929"
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The following pages link to Constitutive modelling of passive myocardium: a structurally based framework for material characterization (Q3559929):
Displaying 50 items.
- Effects of dispersed fibres in myocardial mechanics. I: passive response (Q2130474) (← links)
- A fast computational model for the electrophysiology of the whole human heart (Q2135837) (← links)
- Simulation of the 3D hyperelastic behavior of ventricular myocardium using a finite-element based neural-network approach (Q2136715) (← links)
- An accurate, robust, and efficient finite element framework with applications to anisotropic, nearly and fully incompressible elasticity (Q2136723) (← links)
- Passive and active fiber reorientation in anisotropic materials (Q2145225) (← links)
- How drugs modulate the performance of the human heart (Q2150238) (← links)
- Data-driven tissue mechanics with polyconvex neural ordinary differential equations (Q2160446) (← links)
- Finite element methods for large-strain poroelasticity/chemotaxis models simulating the formation of myocardial oedema (Q2162322) (← links)
- How viscous is the beating heart? Insights from a computational study (Q2171510) (← links)
- Towards an efficient computational strategy for electro-activation in cardiac mechanics (Q2173633) (← links)
- Sensitivity analysis of a strongly-coupled human-based electromechanical cardiac model: effect of mechanical parameters on physiologically relevant biomarkers (Q2176945) (← links)
- Stabilization approaches for the hyperelastic immersed boundary method for problems of large-deformation incompressible elasticity (Q2184295) (← links)
- An intergrid transfer operator using radial basis functions with application to cardiac electromechanics (Q2205162) (← links)
- The contribution of mechanical interactions to the constitutive modeling of fiber-reinforced elastomers (Q2224619) (← links)
- Comparative analysis of nonlinear viscoelastic models across common biomechanical experiments (Q2231098) (← links)
- A hybrid microstructural-continuum multiscale approach for modeling hyperelastic fibrous soft tissue (Q2231118) (← links)
- A comparison of fiber based material laws for myocardial scar (Q2231120) (← links)
- An integrative smoothed particle hydrodynamics method for modeling cardiac function (Q2237001) (← links)
- Mathematical and numerical models for the cardiac electromechanical function (Q2240519) (← links)
- Residually stressed two fibre solids: a spectral approach (Q2295791) (← links)
- Quantifying the uncertainty in a hyperelastic soft tissue model with stochastic parameters (Q2306756) (← links)
- Computational cardiology: a modified Hill model to describe the electro-visco-elasticity of the myocardium (Q2308913) (← links)
- The importance of mechano-electrical feedback and inertia in cardiac electromechanics (Q2309848) (← links)
- A matrix DEIM technique for model reduction of nonlinear parametrized problems in cardiac mechanics (Q2309983) (← links)
- A viscoactive constitutive modeling framework with variational updates for the myocardium (Q2310357) (← links)
- Patient-specific modeling for left ventricular mechanics using data-driven boundary energies (Q2310369) (← links)
- Integrated heart -- coupling multiscale and multiphysics models for the simulation of the cardiac function (Q2310372) (← links)
- Parallel multilevel solvers for the cardiac electro-mechanical coupling (Q2349311) (← links)
- Anatomically accurate high resolution modeling of human whole heart electromechanics: A strongly scalable algebraic multigrid solver method for nonlinear deformation (Q2374953) (← links)
- What-you-prescribe-is-what-you-get orthotropic hyperelasticity (Q2512478) (← links)
- Newton-Krylov-BDDC solvers for nonlinear cardiac mechanics (Q2631461) (← links)
- The number of independent invariants for $n$ symmetric second order tensors (Q2633448) (← links)
- Electromechanics of the heart: a unified approach to the strongly coupled excitation-contraction problem (Q2655400) (← links)
- 3D-0D closed-loop model for the simulation of cardiac biventricular electromechanics (Q2670385) (← links)
- Robust and efficient fixed-point algorithm for the inverse elastostatic problem to identify myocardial passive material parameters and the unloaded reference configuration (Q2671382) (← links)
- A stabilized linear finite element method for anisotropic poroelastodynamics with application to cardiac perfusion (Q2683465) (← links)
- Estimation of left ventricular parameters based on deep learning method (Q2686802) (← links)
- A multi-order smoothed particle hydrodynamics method for cardiac electromechanics with the purkinje network (Q2693383) (← links)
- Bioelectrical effects of mechanical feedbacks in a strongly coupled cardiac electro-mechanical model (Q2788505) (← links)
- Multiphysics computational modeling in \(\mathcal{C}\mathbf{Heart}\) (Q2810329) (← links)
- An active strain electromechanical model for cardiac tissue (Q2900422) (← links)
- Coupled electromechanical model of the heart: Parallel finite element formulation (Q2900424) (← links)
- Fully Eulerian finite element approximation of a fluid-structure interaction problem in cardiac cells (Q2952387) (← links)
- Classical and all-floating FETI methods for the simulation of arterial tissues (Q2952522) (← links)
- Simple shearing of soft biological tissues (Q3076711) (← links)
- Computational modeling of passive myocardium (Q3084132) (← links)
- Fluid-solid coupling for the investigation of diastolic and systolic human left ventricular function (Q3089030) (← links)
- Segregated Algorithms for the Numerical Simulation of Cardiac Electromechanics in the Left Human Ventricle (Q3300479) (← links)
- An operator splitting approach for the interaction between a fluid and a multilayered poroelastic structure (Q3448349) (← links)
- Ray W Ogden: An Appreciation (Q3453617) (← links)