Hybrid-Mixed Shell Finite Elements and Implicit Dynamic Schemes for Shell Post-buckling
DOI10.1007/978-3-030-17747-8_21zbMath1466.74046OpenAlexW2975137825MaRDI QIDQ5131287
Boštjan Brank, Marko Lavrenčič
Publication date: 5 November 2020
Published in: Advanced Structured Materials (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/978-3-030-17747-8_21
numerical dissipationReissner-Mindlin kinematicsgeometrically exact shell modelhybrid-mixed shell elementshell stability analysis
Finite element methods applied to problems in solid mechanics (74S05) Stability of dynamical problems in solid mechanics (74H55) Shells (74K25) Dynamical bifurcation of solutions to dynamical problems in solid mechanics (74H60)
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- On path-following methods for structural failure problems
- Axial compression-induced wrinkles on a core-shell soft cylinder: theoretical analysis, simulations and experiments
- On vectorially parameterized natural strain measures of the nonlinear Cosserat continuum
- On a stress resultant geometrically exact shell model. I: Formulation and optimal parametrization
- Lagrangian description and incremental formulation in the nonlinear theory of thin shells
- Nonlinear shell models with seven kinematic parameters
- A linear quadrilateral shell element with fast stiffness computation
- Assessment of 4-node EAS-ANS shell elements for large deformation analysis
- On a stress resultant geometrically exact shell model. IV: Variable thickness shells with through-the-thickness stretching
- Theory and numerical analysis of shells undergoing large elastic strains
- On a stress resultant geometrically exact shell model. III: Computational aspects of the nonlinear theory
- Generalized energy-momentum method for nonlinear adaptive shell dynamics
- Hierarchic isogeometric large rotation shell elements including linearized transverse shear parametrization
- Structural analysis of composite laminates using a mixed hybrid shell element
- A 4-node finite shell element for the implementation of general hyperelastic 3D-elasticity at finite strains
- Instabilities induced by coarse meshes for a nonlinear shell problem
- On the relation between different parametrizations of finite rotations for shells
- Automation of Finite Element Methods
- A family of ANS four-node exact geometry shell elements in general convected curvilinear coordinates
- A Time Integration Algorithm for Structural Dynamics With Improved Numerical Dissipation: The Generalized-α Method
- Rational approach for assumed stress finite elements
- A robust non-linear mixed hybrid quadrilateral shell element
- A mixed shell formulation accounting for thickness strains and finite strain 3d material models
- On the Variational Foundations of Assumed Strain Methods
- A new energy and momentum conserving algorithm for the non‐linear dynamics of shells
- Stress resultant geometrically exact form of classical shell model and vector‐like parameterization of constrained finite rotations
- An assumed strain approach avoiding artificial thickness straining for a non‐linear 4‐node shell element
- 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
- Constrained finite rotations in dynamics of shells and Newmark implicit time‐stepping schemes
- On the formulation of high-frequency dissipative time-stepping algorithms for nonlinear dynamics. I: Low-order methods for two model problems and nonlinear elastodynamics
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