Pages that link to "Item:Q203076"

The following pages link to Gerhard A. Holzapfel (Q203076):

Displaying 50 items.

• Experiments and mechanochemical modeling of smooth muscle contraction: significance of filament overlap (Q285230) (← links)
• Length adaptation of smooth muscle contractile filaments in response to sustained activation (Q306843) (← links)
• Perspectives on biological growth and remodeling (Q361375) (← links)
• Constitutive framework for the modeling of damage in collagenous soft tissues with application to arterial walls (Q438128) (← links)
• Modeling the dispersion effects of contractile fibers in smooth muscles (Q645790) (← links)
• Methods to compute 3D residual stress distributions in hyperelastic tubes with application to arterial walls (Q660611) (← links)
• On the quasi-incompressible finite element analysis of anisotropic hyperelastic materials (Q670366) (← links)
• (Q813876) (redirect page) (← links)
• Multi-segment FEA of the human lumbar spine including the heterogeneity of the annulus fibrosus (Q813878) (← links)
• Finite element modeling of balloon angioplasty by considering overstretch of remnant non-diseased tissues in lesions (Q1015610) (← links)
• Brain tissue deforms similarly to filled elastomers and follows consolidation theory (Q1019394) (← links)
• Elastic properties of anisotropic vascular membranes examined by inverse analysis (Q1038316) (← links)
• Hermitian-method for the nonlinear analysis of arbitrary thin shell structures (Q1189868) (← links)
• A shear deformation shell theory for finite rotations and its numerical solution with the finite-difference method (Q1190382) (← links)
• Entropy elasticity of isotropic rubber-like solids at finite strains (Q1372789) (← links)
• Large strain analysis of soft biological membranes: Formulation and finite element analysis (Q1372792) (← links)
• A new viscoelastic constitutive model for continuous media at finite thermomechanical changes (Q1388557) (← links)
• Geometrically nonlinear and consistently linearized embedded strong discontinuity models for 3D problems with an application to the dissection analysis of soft biological tissues. (Q1430649) (← links)
• A theoretical model for fibroblast-controlled growth of saccular cerebral aneurysms (Q1617504) (← links)
• Computational method for excluding fibers under compression in modeling soft fibrous solids (Q1658047) (← links)
• Comparison of two model frameworks for fiber dispersion in the elasticity of soft biological tissues (Q1658853) (← links)
• On the tension-compression switch in soft fibrous solids (Q1669532) (← links)
• On fiber dispersion models: exclusion of compressed fibers and spurious model comparisons (Q1679525) (← links)
• On the bending and stretching elasticity of biopolymer filaments (Q1937107) (← links)
• A finite element implementation of a growth and remodeling model for soft biological tissues: verification and application to abdominal aortic aneurysms (Q1988068) (← links)
• A discrete approach for modeling degraded elastic fibers in aortic dissection (Q2020831) (← links)
• Multiscale modeling of fiber recruitment and damage with a discrete fiber dispersion method (Q2064787) (← links)
• Stochastic modeling of inhomogeneities in the aortic wall and uncertainty quantification using a Bayesian encoder-decoder surrogate (Q2096832) (← links)
• A phenomenological model for atherosclerotic plaque growth and rupture (Q2187577) (← links)
• Determination of material models for arterial walls from uniaxial extension tests and histological structure (Q2194914) (← links)
• A model for saccular cerebral aneurysm growth by collagen fibre remodelling (Q2219781) (← links)
• Modeling the porous and viscous responses of human brain tissue behavior (Q2236114) (← links)
• Multiscale numerical analyses of arterial tissue with embedded elements in the finite strain regime (Q2236996) (← links)
• A phase-field approach to model fracture of arterial walls: theory and finite element analysis (Q2308729) (← links)
• A phase-field model for fracture of unidirectional fiber-reinforced polymer matrix composites (Q2308820) (← links)
• An efficient and accurate method for modeling nonlinear fractional viscoelastic biomaterials (Q2310246) (← links)
• Numerical aspects of anisotropic failure in soft biological tissues favor energy-based criteria: a rate-dependent anisotropic crack phase-field model (Q2310694) (← links)
• 3D crack propagation in unreinforced concrete: A two-step algorithm for tracking 3D crack paths (Q2384503) (← links)
• Investigating the role of smooth muscle cells in large elastic arteries: A finite element analysis (Q2415639) (← links)
• A polyconvex framework for soft biological tissues. Adjustment to experimental data (Q2456148) (← links)
• Modeling the propagation of arterial dissection (Q2459458) (← links)
• Modeling 3D crack propagation in unreinforced concrete using PUFEM (Q2488977) (← links)
• A new two-point deformation tensor and its relation to the classical kinematical framework and the stress concept (Q2571842) (← links)
• A mechanochemical 3D continuum model for smooth muscle contraction under finite strains (Q2632079) (← links)
• Anisotropic finite strain viscoelasticity: constitutive modeling and finite element implementation (Q2664985) (← links)
• Nonlinear solid mechanics. A continuum approach for engineering (Q2726732) (← links)
• Finite element analysis of abdominal aortic aneurysms: geometrical and structural reconstruction with application of an anisotropic material model (Q2930535) (← links)
• Classical and all-floating FETI methods for the simulation of arterial tissues (Q2952522) (← links)
• (Q3354064) (← links)
• (Q3366239) (← links)