An assumed strain approach avoiding artificial thickness straining for a non‐linear 4‐node shell element

Using finite strain 3D‐material models in beam and shell elements, On the resolution of transverse stresses in solid-shells with a multi-layer formulation, Non-linear exact geometry 12-node solid-shell element with three translational degrees of freedom per node, A mixed solid-shell element for the analysis of laminated composites, A solid-shell Cosserat point element (SSCPE) for elastic thin structures at finite deformation, Simple and effective elements based upon Timoshenko-Mindlin shell theory, A stabilized hybrid-stress solid element for geometrically nonlinear homogeneous and laminated shell analyses, Nonlinear strain-displacement equations exactly representing large rigid-body motions. II: Enhanced finite element technique, Erratum, Nonlinear thermo-elastic phase-field fracture of thin-walled structures relying on solid shell concepts, A nonlinear extensible 4-node shell element based on continuum theory and assumed strain interpolations, A novel versatile multilayer hybrid stress solid-shell element, Phase field modeling of brittle fracture for enhanced assumed strain shells at large deformations: formulation and finite element implementation, A global-local discontinuous Galerkin finite element for finite-deformation analysis of multilayered shells, Extension of the ?solid-shell? concept for application to large elastic and large elastoplastic deformations, Generalized modal element method. II: Application to eight-node asymmetric and symmetric solid-shell elements in linear analysis, Simple formulations of imposing moments and evaluating joint reaction forces for rigid-flexible multibody systems, Phase field modeling of brittle fracture in large-deformation solid shells with the efficient quasi-Newton solution and global-local approach, An optimal versatile partial hybrid stress solid-shell element for the analysis of multilayer composites, A solid-shell corotational element based on ANDES, ANS and EAS for geometrically nonlinear structural analysis, Locking treatment of penalty-based gradient-enhanced damage formulation for failure of compressible and nearly incompressible hyperelastic materials, Finite element analysis of compressible transversely isotropic hyperelastic shells, Reduced representations of assumed fields for Hu-Washizu solid-shell element, Optimal solid shells for nonlinear analyses of multilayer composites. I: Statics., Optimal solid shells for nonlinear analyses of multilayer composites. II: Dynamics., Nonlinear strain--displacement equations exactly representing large rigid-body motions. I: Timoshenko--Mindlin shell theory, An isogeometric finite element formulation for frictionless contact of Cosserat rods with unconstrained directors, An extensible double director 3D shell formulation for FGM-CNTRC shell bending analysis, A selectively reduced degree basis for efficient mixed nonlinear isogeometric beam formulations with extensible directors, A modified first shear deformation theory for three-dimensional thermal post-buckling analysis of FGM plates, A partial hybrid stress solid-shell element for the analysis of laminated composites, Optimal low-order fully integrated solid-shell elements, A quadrilateral shell element with degree of freedom to represent thickness-stretch, Adaptive fuzzy control for attitude stabilization of spacecraft with deployable composite laminated solar array, Variational formulation of a three-dimensional surface-related solid-shell finite element, Sheet metal forming and springback simulation by means of a new reduced integration solid-shell finite element technology, Hybrid-Mixed Shell Finite Elements and Implicit Dynamic Schemes for Shell Post-buckling, A global-local discontinuous Galerkin shell finite element for small-deformation analysis of multi-layered composites, Finite element concepts for finite elastoplastic strains and isotropic stress response in shells: Theoretical and computational analysis, Energy and momentum conserving elastodynamics of a non-linear brick-type mixed finite shell element, Anisotropic finite elastoplastic analysis of shells: Simulation of earing in deep-drawing of single- and polycrystalline sheets by Taylor-type micro-to-macro transitions., Failure optimization of geometrically linear/nonlinear laminated composite structures using a two-step hierarchical model adaptivity, Adaptive hpq finite element methods for the analysis of 3D-based models of complex structures. 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A classification of concepts with application to smooth shells, On the Simulation of Textile Reinforced Concrete Layers by a Surface-Related Shell Formulation, A reduced integration solid-shell finite element based on the EAS and the ANS concept-Geometrically linear problems, Numerical implementation of multiplicative elasto-plasticity into assumed strain elements with application to shells at large strains, Unnamed Item, Nonlinear dynamics of slender structures: a new object-oriented framework, An isogeometric finite element formulation for geometrically exact Timoshenko beams with extensible directors, An efficient mixed interpolated curved beam element for geometrically nonlinear analysis, A reduced integration solid-shell finite element based on the EAS and the ANS concept-Large deformation problems, Ductile damage analysis of elasto-plastic shells at large inelastic strains, Unnamed Item, On the performance of enhanced strain finite elements in large strain deformations of elastic shells, One-point quadrature ANS solid-shell element based on a displacement variational formulation. I: Geometrically linear assessment, A finite element formulation for the simulation of propagating delaminations in layered composite structures, Time integration in the context of energy control and locking-free finite elements, A robust nonlinear solid shell element based on a mixed variational formulation, A model of finite strain viscoplasticity based on unified constitutive equations. Theoretical and computational considerations with applications to shells, Modeling large deformations of thin-walled SMA structures by shell finite elements, Computationally efficient explicit nonlinear analyses using reduced integration-based solid-shell finite elements, A general high‐order finite element formulation for shells at large strains and finite rotations, Chrono: An Open Source Multi-physics Dynamics Engine, Large strain deformations of elastic shells. Constitutive modelling and finite element analysis, A simple method to impose rotations and concentrated moments on ANC beams, Concurrently coupled solid shell-based adaptive multiscale method for fracture, Geometrically Exact Nonlinear Extended-Reissner/Mindlin Shells: Fundamentals, Finite Element Formulation, Elasticity, Gradient-extended damage analysis with reduced integration-based solid-shells at large deformations, Delamination growth analysis in laminated structures with continuum-based 3D-shell elements and a viscoplastic softening model, Composite laminates: Nonlinear interlaminar stress analysis by multi-layer shell elements, Large inelastic strain analysis by multilayer shell elements, A mixed co-rotational formulation of 2D beam element using vectorial rotational variables, A solid-shell formulation based on the assumed natural inhomogeneous strains for modeling the viscoelastic response of electro-active polymers, Nonlinear shell models with seven kinematic parameters

• On a stress resultant geometrically exact shell model. II: The linear theory; computational aspects
• Nonlinear finite element analysis of shells. I. Three-dimensional shells
• On a stress resultant geometrically exact shell model. IV: Variable thickness shells with through-the-thickness stretching
• A nonlinear quadrilateral shell element with drilling degrees of freedom
• Finite-rotation shell elements via mixed formulation
• On a stress resultant geometrically exact shell model. III: Computational aspects of the nonlinear theory
• On the Variational Foundations of Assumed Strain Methods
• Adaptive techniques in the finite element method
• On a stress resultant geometrically exact shell model. Part VI: Conserving algorithms for non‐linear dynamics
• An investigation of a finite rotation four node assumed strain shell element
• Three‐dimensional extension of non‐linear shell formulation based on the enhanced assumed strain concept
• A class of mixed assumed strain methods and the method of incompatible modes