Invariant formulation of hyperelastic transverse isotropy based on polyconvex free energy functions.

A unified theoretical structure for modeling interstitial growth and muscle activation in soft tissues, A computational framework for polyconvex large strain elasticity for geometrically exact beam theory, Spatially-dependent material uncertainties in anisotropic nonlinear elasticity: stochastic modeling, identification, and propagation, On physics-informed data-driven isotropic and anisotropic constitutive models through probabilistic machine learning and space-filling sampling, Analysis of thin shells using anisotropic polyconvex energy densities, Towards shock absorbing hyperelastic metamaterial design. I: Macroscopic scale: computational shock-capturing, Loss of mass and performance in skeletal muscle tissue: a continuum model, Microstructurally-based constitutive modelling of the skin -- linking intrinsic ageing to microstructural parameters, Parameter estimation and its influence on layered metal-composite-metal plates simulation, An algorithmic scheme for the automated calculation of fiber orientations in arterial walls, Data-driven tissue mechanics with polyconvex neural ordinary differential equations, On the use of the upper triangular (or QR) decomposition for developing constitutive equations for Green-elastic materials, Nonlinear coupled thermo-hyperelasticity analysis of thermal and mechanical wave propagation in a finite domain, A simple triangular finite element for nonlinear thin shells: statics, dynamics and anisotropy, A continuum constitutive model for the active behaviour of skeletal muscle, Constitutive modeling for the tear fracture of artificial tissues in human-like soft robots, Remodeling and growth of living tissue: a multiphase theory, On the mechanical modeling of anisotropic biological soft tissue and iterative parallel solution strategies, Statistical approach for a continuum description of damage evolution in soft collagenous tissues, A computational framework for polyconvex large strain elasticity, Transversely isotropic material: nonlinear Cosserat versus classical approach, A highly accurate 1st- and 2nd-order differentiation scheme for hyperelastic material models based on hyper-dual numbers, An orthotropic active-strain model for the myocardium mechanics and its numerical approximation, Towards an efficient computational strategy for electro-activation in cardiac mechanics, On the local identifiability of constituent stress-strain laws for hyperelastic composite materials, A stabilisation approach for topology optimisation of hyperelastic structures with the SIMP method, A finite element method for contact using a third medium, A first order hyperbolic framework for large strain computational solid dynamics. II: Total Lagrangian compressible, nearly incompressible and truly incompressible elasticity, Non-isothermal energy-momentum time integrations with drilling degrees of freedom of composites with viscoelastic fiber bundles and curvature-twist stiffness, Convexity, polyconvexity and finite element implementation of a four-fiber anisotropic hyperelastic strain energy density -- application to the modeling of femoral, popliteal and tibial arteries, Implementation of incremental variational formulations based on the numerical calculation of derivatives using hyper dual numbers, A new framework for large strain electromechanics based on convex multi-variable strain energies: variational formulation and material characterisation, Comparative analysis of damage functions for soft tissues: Properties at damage initialization, The exponentiated Hencky-logarithmic strain energy. I: Constitutive issues and rank-one convexity, The effect of different forms of strain energy functions in hyperelasticity-based crystal plasticity models on texture evolution and mechanical response of face-centered cubic crystals, A polyconvex transversely-isotropic invariant-based formulation for electro-mechanics: stability, minimisers and computational implementation, On the stability analysis of hyperelastic boundary value problems using three- and two-field mixed finite element formulations, A fiber orientation-adapted integration scheme for computing the hyperelastic Tucker average for short fiber reinforced composites, A new mixed finite element based on different approximations of the minors of deformation tensors, Progressive damage and rupture in polymers, A theory for fracture of polymeric gels, Constitutive framework for the modeling of damage in collagenous soft tissues with application to arterial walls, Approximation of anisotropic elasticity tensors at the reference state with polyconvex energies, A new parameter identification method of soft biological tissue combining genetic algorithm with analytical optimization, Automatic implementation of finite strain anisotropic hyperelastic models using hyper-dual numbers, The exponentiated Hencky-logarithmic strain energy. II: Coercivity, planar polyconvexity and existence of minimizers, Thick fibrous composite reinforcements behave as special second-gradient materials: three-point bending of 3D interlocks, Electro-magneto-mechanically response of polycrystalline materials: computational homogenization via the virtual element method, Multiphasic intervertebral disc mechanics: theory and application, Computational stability analysis of periodic electroactive polymer composites across scales, Bending of hyperelastic beams made of transversely isotropic material in finite elasticity, Micro -- macro constitutive modeling and finite element analytical-based formulations for fibrous materials: a multiscale structural approach for crimped fibers, Stochastic modeling and identification of a hyperelastic constitutive model for laminated composites, A new computational framework for electro-activation in cardiac mechanics, Computational homogenization of polycrystalline materials with the virtual element method, The exponentiated Hencky energy: anisotropic extension and case studies, Predicting the mechanical properties of biopolymer gels using neural networks trained on discrete fiber network data, Two different approaches to model evolving directional properties at finite deformations, A new approach for the validation of skeletal muscle modelling using MRI data, The influence of the twist of individual fibers in 2D fibered networks, Injectivity of the Cauchy-stress tensor along rank-one connected lines under strict rank-one convexity condition, Fluid-structure interaction simulations of cerebral arteries modeled by isotropic and anisotropic constitutive laws, A first order hyperbolic framework for large strain computational solid dynamics. III: Thermo-elasticity, A convex multi-variable based computational framework for multilayered electro-active polymers, On simple constitutive restrictions for transversely isotropic nonlinearly elastic materials and isotropic magneto-sensitive elastomers, On a phenomenological model for fatigue effects in skeletal muscles, On non-physical response in models for fiber-reinforced hyperelastic materials, A new variational approach for the thermodynamic topology optimization of hyperelastic structures, A novel scheme for the approximation of residual stresses in arterial walls, Anisotropic polyconvex energies on the basis of crystallographic motivated structural tensors, Symmetry properties of the elastic energy of a woven fabric with bending and twisting resistance, Modeling of anisotropic softening phenomena: Application to soft biological tissues, Nonlinear solid finite element analysis of mitral valves with heterogeneous leaflet layers, Robust numerical analysis of homogeneous and non-homogeneous deformations, A new framework for large strain electromechanics based on convex multi-variable strain energies: conservation laws, hyperbolicity and extension to electro-magneto-mechanics, A phase-field model for fracture of unidirectional fiber-reinforced polymer matrix composites, A framework for polyconvex large strain phase-field methods to fracture, A computational framework for incompressible electromechanics based on convex multi-variable strain energies for geometrically exact shell theory, A multi-field finite element approach for the modelling of fibre-reinforced composites with fibre-bending stiffness, An engineering tool to estimate eigenstresses in three-dimensional patient-specific arteries, \(\mathrm{SO}(3)\)-invariance of informed-graph-based deep neural network for anisotropic elastoplastic materials, Propagation and interaction of weakly nonlinear plane waves in transversely isotropic elastic materials, A finite deformation isogeometric finite element approach to fibre-reinforced composites with fibre bending stiffness, On referential and spatial formulations of inverse elastostatic analysis, A computational framework for large strain nearly and truly incompressible electromechanics based on convex multi-variable strain energies, A novel mixed finite element for finite anisotropic elasticity: the SKA-element simplified kinematics for anisotropy, A random field model for anisotropic strain energy functions and its application for uncertainty quantification in vascular mechanics, Viscoelastic up-scaling rank-one effects in in-silico modelling of electro-active polymers, Modeling the collagen fibril network of biological tissues as a nonlinearly elastic material using a continuous volume fraction distribution function, Finite electro-elasticity with physics-augmented neural networks, An anisotropic hyperelastic model with an application to soft tissues, Adaptive convexification of microsphere-based incremental damage for stress and strain softening at finite strains, A geometrically exact Cosserat shell-model including size effects, avoiding degeneracy in the thin shell limit. I: Formal dimensional reduction for elastic plates and existence of minimizers for positive Cosserat couple modulus, A computational framework for topology optimisation of flexoelectricity at finite strains considering a multi-field micromorphic approach, Elastoplastic deformations of layered structures, On the convexity of the function C ↦ f(det C) on positive-definite matrices, Hyperelastic energy densities for soft biological tissues: a review, Energy-momentum conserving higher-order time integration of nonlinear dynamics of finite elastic fiber-reinforced continua, Effective rationality of second-order symmetric tensor spaces, Finite strain response of crimped fibers under uniaxial traction: an analytical approach applied to collagen, Transversal isotropy based on a multiplicative decomposition of the deformation gradient within p‐version finite elements, Reinforced elastomers: homogenization, macroscopic stability and relaxation, Programming shape-morphing electroactive polymers through multi-material topology optimisation, A physics-based failure study of smart artificial tissues in human-like soft robots, Phase‐Field Fracture at Finite Strains Based on Modified Invariants: A Note on its Analysis and Simulations, Advanced discretization techniques for hyperelastic physics-augmented neural networks, A novel mixed and energy‐momentum consistent framework for coupled nonlinear thermo‐electro‐elastodynamics, Weak Lower Semicontinuity of Integral Functionals and Applications, A SimpleModel for Anisotropic Damage with Applications to Soft Tissues, Comparison of arterial wall models in fluid-structure interaction simulations, A multiscale phase field fracture approach based on the non-affine microsphere model for rubber-like materials, A novel continuum mechanical framework for decoupled material behavior in thickness and in-plane directions, Least-Squares Mixed Finite Element Formulations for Isotropic and Anisotropic Elasticity at Small and Large Strains, Neural network-based multiscale modeling of finite strain magneto-elasticity with relaxed convexity criteria, A simple geometrically exact finite element for thin shells. I: Statics, Mixed virtual element formulations for incompressible and inextensible problems, Analysis and simulations for a phase‐field fracture model at finite strains based on modified invariants, Adjoint-based optimal control of contractile elastic bodies. Application to limbless locomotion on frictional substrates, Viscoelastic constitutive artificial neural networks (vCANNs) -- a framework for data-driven anisotropic nonlinear finite viscoelasticity, RELAXATION OF SOME TRANSVERSALLY ISOTROPIC ENERGIES AND APPLICATIONS TO SMECTIC A ELASTOMERS, A variational approach to nonlinear electro-magneto-elasticity: Convexity conditions and existence theorems, Optimal Control of Soft Materials Using a Hausdorff Distance Functional, Continuum model of epithelial morphogenesis during Caenorhabditis elegans embryonic elongation, On Constitutive Equations For Anisotropic Nonlinearly Viscoelastic Solids, A Universal Model for the Elastic, Inelastic and Active Behaviour of Soft Biological Tissues, A Nonlinear Elimination Preconditioned Inexact Newton Method for Heterogeneous Hyperelasticity, Constitutive Equations for Hyperelastic Materials Based on the Upper Triangular Decomposition of the Deformation Gradient