Finite-strain laminates: Bending-enhanced hexahedron and delamination
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Elsevier
Abstract
With a new finite strain anisotropic framework, we introduce a unified approach for constitutive model-
ing and delamination of composites. We describe a finite-strain semi-implicit integration algorithm and
the application to assumed-strain hexahedra. In a laminate composite, the laminae are modeled by an
anisotropic Kirchhoff/Saint-Venant material and the interfaces are modeled by the exponential cohesive
law with intrinsic characteristic length and the criterion by Benzeggagh and Kenane for the equivalent
fracture toughness. For the element formulation, a weighted least-squares algorithm is used to calculate
the mixed strain. Löwdin frames are used to model orthotropic materials without the added task of per-
forming a polar decomposition or empirical frames. To assess the validity of our proposals and inspect
step and mesh size dependence, a least-squares based hexahedral element is implemented and tested
in depth in both deformation and delamination examples.