Numerical Investigation of High-Order Solid Finite Elements for Anisotropic Finite Strain Problems
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Publication:5084365
DOI10.1142/S0219876222500074OpenAlexW4223460180WikidataQ114072361 ScholiaQ114072361MaRDI QIDQ5084365
André Hildebrandt, Alexander Düster
Publication date: 24 June 2022
Published in: International Journal of Computational Methods (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1142/s0219876222500074
elastoplasticityhyperelasticityanisotropic finite strain problemsanisotropic solid elementshigh-order solid elements
Uses Software
Cites Work
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- High-order FEMs for thermo-hyperelasticity at finite strains
- Allgemeine Kontinuumstheorie der Versetzungen und Eigenspannungen
- \(pq\)-adaptive solid finite elements for three-dimensional plates and shells
- \(p\)-FEM for finite deformation powder compaction
- A formulation of anisotropic continuum elastoplasticity at finite strains. I: Modelling
- On a numerical implementation of a formulation of anisotropic continuum elastoplasticity at finite strains
- Quasi-regional mapping for the \(p\)-version of the finite element method
- \(p\)-FEM applied to finite isotropic hyperelastic bodies.
- Anisotropic hierarchic solid finite elements for the simulation of passive-active arterial wall models
- The finite cell method for nearly incompressible finite strain plasticity problems with complex geometries
- Normal contact with high order finite elements and a fictitious contact material
- A comparison of the \(h\)-, \(p\)-, \(hp\)-, and \(rp\)-version of the FEM for the solution of the 2D Hertzian contact problem
- On an equivalence between a discontinuous Galerkin method and reduced integration with hourglass stabilization for finite elasticity
- On a physically stabilized one point finite element formulation for three-dimensional finite elasto-plasticity
- The p‐version of the finite element method for three‐dimensional curved thin walled structures
- A reduced integration solid-shell finite element based on the EAS and the ANS concept-Large deformation problems
- Follower loads for high order finite elements
- A reduced integration solid-shell finite element based on the EAS and the ANS concept-Geometrically linear problems
- Hierarchic plate and shell models based onp-extension
- Thep-Version of the Finite Element Method
- p-convergent finite element approximations in fracture mechanics
- On the accuracy ofp-version elements for the Reissner-Mindlin plate problem
- A p‐version finite element approach for two‐ and three‐dimensional problems of the J2 flow theory with non‐linear isotropic hardening
- THEp-VERSION OF THE FINITE ELEMENT METHOD IN INCREMENTAL ELASTO-PLASTIC ANALYSIS
- A stabilization technique to avoid hourglassing in finite elasticity
- High‐order finite elements compared to low‐order mixed element formulations
- Application of thep-version of the finite element method to elastoplasticity with localization of deformation
- On volumetric locking‐free behaviour of p‐version finite elements under finite deformations
- Elastic-Plastic Deformation at Finite Strains
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