Analysis of sandwich beam structures using kriging based higher order models

Functionally graded composite materials can provide continuously varying properties, which distribution can vary according to a specific location within the composite. More frequently, functionally graded materials consider a through thickness variation law, which can be more or less smoother, posse...

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Bibliographic Details
Published in:Composite structures 2015-01, Vol.119, p.99-106
Main Authors: Loja, M.A.R., Barbosa, J.I., Mota Soares, C.M.
Format: Article
Language:English
Subjects:
Bossak–Newmark method
Dynamics
Functionally graded sandwich structures
Functionally gradient materials
Higher-order shear deformation theory
Kriging
Kriging interpolation
Laminates
Mori–Tanaka homogenization
Sandwich structures
Shape functions
Shear deformation
Structural analysis
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Summary:Functionally graded composite materials can provide continuously varying properties, which distribution can vary according to a specific location within the composite. More frequently, functionally graded materials consider a through thickness variation law, which can be more or less smoother, possessing however an important characteristic which is the continuous properties variation profiles, which eliminate the abrupt stresses discontinuities found on laminated composites. This study aims to analyze the transient dynamic behavior of sandwich structures, having a metallic core and functionally graded outer layers. To this purpose, the properties of the particulate composite metal–ceramic outer layers, are estimated using Mori–Tanaka scheme and the dynamic analyses considers first order and higher order shear deformation theories implemented though kriging finite element method. The transient dynamic response of these structures is carried out through Bossak–Newmark method. The illustrative cases presented in this work, consider the influence of the shape functions interpolation domain, the properties through-thickness distribution, the influence of considering different materials, aspect ratios and boundary conditions.
ISSN:0263-8223
1879-1085
DOI:10.1016/j.compstruct.2014.08.019