A geometrical non-linear brick element based on the EAS-method

Geometric non-linear hexahedral elements with rotational DOFs, Mixed-enhanced formulation for geometrically linear axisymmetric problems, A mixed solid-shell element for the analysis of laminated composites, Development of a mixed displacement-stress formulation for the analysis of elastoplastic structures under small strains: application to a locking-free, NURBS-based solid-shell element, Corotational nonlinear analyses of laminated shell structures using a 4-node quadrilateral flat shell element with drilling stiffness, Nonlinear thermo-elastic phase-field fracture of thin-walled structures relying on solid shell concepts, 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, Implicit/explicit elastodynamics of isotropic and anisotropic plates and shells using a solid-like shell element, A nine nodes solid-shell finite element with enhanced pinching stress, 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, An isogeometric locking-free NURBS-based solid-shell element for geometrically nonlinear analysis, A 3D Cosserat point element (CPE) for nonlinear orthotropic solids: Generalization for an initially distorted mesh and an arbitrary orientation of material orthotropy, Artificial instabilities of finite elements for nonlinear elasticity: Analysis and remedies, Hourglassing‐ and locking‐free mesh distortion insensitive Petrov–Galerkin EAS element for large deformation solid mechanics, Optimal solid shells for nonlinear analyses of multilayer composites. I: Statics., Optimal solid shells for nonlinear analyses of multilayer composites. II: Dynamics., A partial hybrid stress solid-shell element for the analysis of laminated composites, Optimal low-order fully integrated solid-shell elements, Finite element concepts for finite elastoplastic strains and isotropic stress response in shells: Theoretical and computational analysis, Efficient isogeometric NURBS-based solid-shell elements: mixed formulation and \(\overline B\)-method, An improved assumed strain solid-shell element formulation with physical stabilization for geometric non-linear applications and elastic-plastic stability analysis, An isogeometric finite element formulation for geometrically exact Timoshenko beams with extensible directors, A new one-point quadrature enhanced assumed strain (EAS) solid-shell element with multiple integration points along thickness: Part I-geometrically linear applications, Variational-based higher-order accurate energy-momentum schemes for thermo-viscoelastic fiber-reinforced continua, Variational-based locking-free energy-momentum schemes of higher-order for thermo-viscoelastic fiber-reinforced continua, A six-node prismatic solid finite element for geometric nonlinear problems in elasticity, On the performance of enhanced strain finite elements in large strain deformations of elastic shells, Time integration in the context of energy control and locking-free finite elements, On a physically stabilized one point finite element formulation for three-dimensional finite elasto-plasticity, 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, Eight-node shell element based on incompatible modes, Concurrently coupled solid shell-based adaptive multiscale method for fracture, Variational-based energy-momentum schemes of higher-order for elastic fiber-reinforced continua, Geometrically nonlinear dynamic formulation for three-dimensional co-rotational solid elements, Delamination growth analysis in laminated structures with continuum-based 3D-shell elements and a viscoplastic softening model, Finite element linear and nonlinear, static and dynamic analysis of structural elements – an addendum – A bibliography (1996‐1999)

• Improved versions of assumed enhanced strain tri-linear elements for 3D finite deformation problems
• A 4-node finite shell element for the implementation of general hyperelastic 3D-elasticity at finite strains
• Finite deformation post-buckling analysis involving inelasticity and contact constraints
• Genuinely resultant shell finite elements accounting for geometric and material non‐linearity
• Large displacement analysis of three-dimensional beam structures
• Enhanced 8‐node three‐dimensional solid and 4‐node shell elements with incompatible generalized displacements
• A class of mixed assumed strain methods and the method of incompatible modes
• EAS‐elements for two‐dimensional, three‐dimensional, plate and shell structures and their equivalence to HR‐elements