FE plane stress analysis incorporating arbitrary 3D large strain constitutive models
From MaRDI portal
Publication:2721467
DOI10.1108/02644409710166172zbMath0983.74560OpenAlexW1995459672MaRDI QIDQ2721467
Erwin Stein, Paul Steinmann, Peter Betsch
Publication date: 29 April 2002
Published in: Engineering Computations (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1108/02644409710166172
Finite element methods applied to problems in solid mechanics (74S05) Plastic materials, materials of stress-rate and internal-variable type (74C99)
Related Items (8)
Using finite strain 3D‐material models in beam and shell elements ⋮ Erratum ⋮ Instability phenomena in plasticity: Modelling and computation ⋮ A nonlinear extensible 4-node shell element based on continuum theory and assumed strain interpolations ⋮ Creep simulation of asymmetric effects at large strains by stress mode decomposition ⋮ Parameter identification for rubber materials with artificial spatially distributed data ⋮ Sheet metal forming and springback simulation by means of a new reduced integration solid-shell finite element technology ⋮ Finite element linear and nonlinear, static and dynamic analysis of structural elements – an addendum – A bibliography (1996‐1999)
Cites Work
- Coupled elasto-plasticity and damage constitutive equations
- Algorithms for static and dynamic multiplicative plasticity that preserve the classical return mapping schemes of the infinitesimal theory
- Associative coupled thermoplasticity at finite strains: Formulation, numerical analysis and implementation
- Comparison of different finite deformation inelastic damage models within multiplicative elastoplasticity for ductile materials
- 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
- Theory and finite element formulation of rubberlike membrane shells using principal stretches
- Geometrically non-linear enhanced strain mixed methods and the method of incompatible modes
- Numerical stability in quasi-static elasto/visco-plasticity
- A non-conforming element for stress analysis
- Aspects of the formulation and finite element implementation of large strain isotropic elasticity
- 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
- Elasto‐plastic solutions of engineering problems ‘initial stress’, finite element approach
This page was built for publication: FE plane stress analysis incorporating arbitrary 3D large strain constitutive models
