Extension of Koiter’s linear shell theory to materials exhibiting arbitrary symmetry

Koiter’s linear shell theory applies to isotropic elastic materials and to anisotropic materials that exhibit reflection symmetry of the elastic properties with respect to the shell mid-surface. To the extent that such shells are exceptional, classical linear shell theory is incomplete. This lacuna...

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Bibliographic Details
Published in:International journal of engineering science 2012-02, Vol.51, p.216-232
Main Author: Steigmann, David J.
Format: Article
Language:English
Subjects:
Elastic anisotropy
Elastic constants
Engineering Sciences
Functionally-graded materials
Linear elasticity
Mechanics
Potential energy
Reflection
Shell theory
Shells
Strain
Strain gradients
Symmetry
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Summary:Koiter’s linear shell theory applies to isotropic elastic materials and to anisotropic materials that exhibit reflection symmetry of the elastic properties with respect to the shell mid-surface. To the extent that such shells are exceptional, classical linear shell theory is incomplete. This lacuna is addressed here through a systematic procedure, applicable equally to all kinds of material symmetry, which entails an expansion of the potential energy of the shell in powers of its thickness in a manner reminiscent of Koiter’s work. The variables are the displacement field of the shell mid-surface and certain director fields that arise in the course of the expansion procedure. The directors are constrained in accordance with necessary conditions arising in the exact three-dimensional theory, yielding the optimal expression for the potential energy among those of third order in the small thickness. For materials lacking reflection symmetry, it is found that the strain energy of the shell is sensitive to tangential gradients of strain in addition to the usual strain and bending strain of the conventional theory.
ISSN:0020-7225
1879-2197
DOI:10.1016/j.ijengsci.2011.09.012