Shell deformation states and the finite element method: A benchmark study of cylindrical shells
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Publication:2564602
DOI10.1016/0045-7825(95)00870-XzbMath0861.73046WikidataQ57596933 ScholiaQ57596933MaRDI QIDQ2564602
Otso Ovaskainen, Y. Leino, Juhani Pitkäranta, Jyrki Piila
Publication date: 15 January 1997
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
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Cites Work
- Analysis of some low-order finite element schemes for Mindlin-Reissner and Kirchhoff plates
- The problem of membrane locking in finite element analysis of cylindrical shells
- Scale resolution, locking, and high-order finite element modelling of shells
- Mixed-interpolated elements for Reissner-Mindlin plates
- ERROR ANALYSIS OF MIXED-INTERPOLATED ELEMENTS FOR REISSNER-MINDLIN PLATES
- Energy Estimates Relating Different Linear Elastic Models of a Thin Cylindrical Shell I. The Membrane-Dominated Case
- Analysis of developable shells with special reference to the finite element method and circular cylinders
- CHARACTERIZATION OF THE MEMBRANE THEORY OF A CLAMPED SHELL: THE PARABOLIC CASE
- On the membrane locking of h–p finite elements in a cylindrical shell problem
- CHARACTERIZATION OF THE MEMBRANE THEORY OF A CLAMPED SHELL.
- CHARACTERIZATION OF THE MEMBRANE THEORY OF A CLAMPED SHELL: THE HYPERBOLIC CASE
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