On the relation between different parametrizations of finite rotations for shells
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Publication:2776823
DOI10.1108/02644400110403984zbMath1017.74069OpenAlexW2078334407MaRDI QIDQ2776823
Boštjan Brank, Adnan Ibrahimbegović
Publication date: 28 August 2003
Published in: Engineering Computations (Search for Journal in Brave)
Full work available at URL: https://repozitorij.uni-lj.si/Dokument.php?id=85720&dn=
interpolationparametrizationlinearizationfinite element approximationfinite rotationsgeometrically exact shell models
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Cites Work
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- On a stress resultant geometrically exact shell model. I: Formulation and optimal parametrization
- A three-dimensional finite-strain rod model. II. Computational aspects
- Shear deformation models for large-strain shell analysis
- On the choice of finite rotation parameters
- On a stress resultant geometrically exact shell model. III: Computational aspects of the nonlinear theory
- An excursion into large rotations
- On implementation of a nonlinear four node shell finite element for thin multilayered elastic shells
- Stress resultant geometrically nonlinear shell theory with drilling rotations. I: A consistent formulation
- On the parametrization of finite rotations in computational mechanics. A classification of concepts with application to smooth shells
- Shell theory versus degeneration—a comparison in large rotation finite element analysis
- An exact finite rotation shell theory, its mixed variational formulation and its finite element implementation
- Genuinely resultant shell finite elements accounting for geometric and material non‐linearity
- An investigation of a finite rotation four node assumed strain shell element
- Stress resultant geometrically exact form of classical shell model and vector‐like parameterization of constrained finite rotations
- Computational aspects of vector‐like parametrization of three‐dimensional finite rotations
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