Bending Analysis of Laminated Composite and Sandwich Cylindrical Shells Using Analytical Method and Ansys Calculations

Bending Analysis of Laminated Composite and Sandwich Cylindrical Shells Using Analytical Method and Ansys Calculations

The bending analysis of isotropic, laminated composite and cylindrical sandwich shells was carried out using a higher order shear deformation theory which incorporates undetermined integral in the displacement field. The model proposed involves only four variables. Moreover, unlike the conventional...

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Veröffentlicht in:Mechanics of composite materials 2024-03, Vol.60 (1), p.33-48
Hauptverfasser: Attia, A., Berrabah, A. T., Bourada, F., Bousahla, A. A., Tounsi, A., Ghazwani, M. H., Alnujaie, A.
Format: Artikel
Sprache:eng
Schlagworte:
Bending
Ceramics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Composites
Cylindrical shells
Equations of motion
Finite element method
Glass
Hamilton's principle
Kinematics
Laminar composites
Materials Science
Mathematical models
Natural Materials
Shear deformation
Solid Mechanics
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Zusammenfassung:The bending analysis of isotropic, laminated composite and cylindrical sandwich shells was carried out using a higher order shear deformation theory which incorporates undetermined integral in the displacement field. The model proposed involves only four variables. Moreover, unlike the conventional FSDTs, the shear correction factor is not necessary. The Hamilton’s principle and the Navier’s method are employed to determine and solve the equations of motion. The present analytical model was compared with other higher-order theories in the literature. In addition, finite element analysis methods were designed to calculate displacements and stresses of shells. Shells are subjected to uniform loads. Results are given for shallow and deep shells and thick to thin. According to the analysis, kinematics, based on the indeterminate integral component, are very effective and enable researchers to investigate laminated plates and shells more accurately than traditional models.
ISSN:0191-5665
1573-8922
DOI:10.1007/s11029-024-10173-7