A layerwise finite element for multilayers with imperfect interfaces

Van Anh Duong; Alberto Diaz Diaz; Sylvain Chataigner; Jean François Caron

doi:10.1016/j.compstruct.2011.05.001

A layerwise finite element for multilayers with imperfect interfaces

Van Anh Duong
, Alberto Diaz Diaz
, Sylvain Chataigner
, Jean François Caron

Université Paris Est, ENPC LIGM, IMAGINE
Complejo Industrial Chihuahua

Research output: Contribution to journal › Article › peer-review

Abstract

This article is aimed at proposing a new development of a layer-wise 2D finite-element method for multilayers considering the laminated plate as a superposition of Reissner plates coupled by interfacial stresses. Here, despite the 2D description of the laminates, the interfaces show a particular behavior, elastic or elastoplastic (Von-Mises criterion). The finite element formulation is derived and an eight-node multiparticle element is detailed. The application example of a double lap joint with an elastoplastic adhesive is then considered. The adhesive layer is modeled as an interface. The loading scheme is a load-unload-load one. Interface shear and normal stresses are compared to 3D finite element results. A good agreement between both techniques is observed, particularly for the prediction of the history of the slip between the two adherends and the plastic strains in the adhesive.

Original language	English
Pages (from-to)	3262-3271
Number of pages	10
Journal	Composite Structures
Volume	93
Issue number	12
DOIs	https://doi.org/10.1016/j.compstruct.2011.05.001
Publication status	Published - 1 Jan 2011

Keywords

Laminates Plasticity Interface Finite elements Composites

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10.1016/j.compstruct.2011.05.001

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AU - Duong, Van Anh

AU - Diaz, Alberto Diaz

AU - Chataigner, Sylvain

AU - Caron, Jean François

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AB - This article is aimed at proposing a new development of a layer-wise 2D finite-element method for multilayers considering the laminated plate as a superposition of Reissner plates coupled by interfacial stresses. Here, despite the 2D description of the laminates, the interfaces show a particular behavior, elastic or elastoplastic (Von-Mises criterion). The finite element formulation is derived and an eight-node multiparticle element is detailed. The application example of a double lap joint with an elastoplastic adhesive is then considered. The adhesive layer is modeled as an interface. The loading scheme is a load-unload-load one. Interface shear and normal stresses are compared to 3D finite element results. A good agreement between both techniques is observed, particularly for the prediction of the history of the slip between the two adherends and the plastic strains in the adhesive.

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A layerwise finite element for multilayers with imperfect interfaces

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