Derivation of an elastic shell model of order hn as n tends to infinity

Starting from three-dimensional linear elasticity and performing the dimensional reduction by integration over the thickness, we derive a general form of the areal strain energy density for elastic shells. To obtain the new constitutive model, we do not approximate the deformation fields as polynomi...

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Bibliographic Details
Published in:Mathematics and mechanics of solids 2023-09, Vol.28 (9), p.2075-2107
Main Author: Bîrsan, Mircea
Format: Article
Language:English
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Summary:Starting from three-dimensional linear elasticity and performing the dimensional reduction by integration over the thickness, we derive a general form of the areal strain energy density for elastic shells. To obtain the new constitutive model, we do not approximate the deformation fields as polynomials in the thickness coordinate, but rather we keep all terms in the thickness-wise series expansions. As a result, we deduce the explicit form of the shell strain energy density in which the constitutive coefficients are expressed as integrals depending on the thickness h and on the initial curvature. Then, to obtain the shell model of order [Formula: see text], we expand the integral coefficients in the strain energy function as power series of h and truncate them to the power [Formula: see text]. In the case [Formula: see text], we recover the classical strain energy density for combined bending and stretching of linear shells, which leads to the Koiter model. Finally, we prove that the proposed shell strain energy function is coercive for any [Formula: see text], as well as for the general case [Formula: see text].
ISSN:1081-2865
1741-3028
DOI:10.1177/10812865221137061