A potential-hybrid/mixed finite element scheme for analysis of plates and cylindrical shells
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Publication:1191520
DOI10.1007/BF02014347zbMath0754.73084OpenAlexW2022618661MaRDI QIDQ1191520
Publication date: 27 September 1992
Published in: Applied Mathematics and Mechanics. (English Edition) (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/bf02014347
convergence4-node quadrilateral plate-bending elements MP4, MP4acylindrical shell element of MCS4modified variational functionalsRIT/SRIT-compatible displacement modelsplitting rotations
Plates (74K20) Finite element methods applied to problems in solid mechanics (74S05) Membranes (74K15)
Cites Work
- Mixed finite element methods - reduced and selective integration techniques: a unification of concepts
- Experience with finite element modeling of thin plate bending
- Equivalence between mixed models and displacement models sing reduced integration
- A six-node finite element for plate bending
- A Serendipity cubic-displacement hybrid-stress element for thin and moderately thick plates
- The hybrid-stress model for thin plates
- Mixed formulation finite elements for mindlin theory plate bending
- Alternative ways for formulation of hybrid stress elements
- A new formulation of hybrid/mixed finite element
- Improvement of Plate and Shell Finite Elements by Mixed Formulations
- An optimally integrated four‐node quadrilateral plate bending element
- A cylindrical shell discrete element.
- Reduced integration technique in general analysis of plates and shells
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