Modeling the kinematics of multi-axial composite laminates as a stacking of 2D TIF plies

Thermoplastic composites are widely considered in structural parts. In this paper attention is paid to sheet forming of continuous fiber laminates. In the case of unidirectional prepregs, the ply constitutive equation is modeled as a transversally isotropic fluid, that must satisfy both the fiber in...

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Bibliographic Details
Main Authors: Ibañez, Ruben, Abisset-Chavanne, Emmanuelle, Chinesta, Francisco, Huerta, Antonio
Format: Conference Proceeding
Language:English
Subjects:
Computer simulation
Constitutive equations
Constitutive relationships
Continuous fibers
Deformation
Incompressibility
Kinematics
Lagrange multiplier
Laminates
Layers
Modelling
Plane stress
Polymer matrix composites
Prepregs
Stacking sequence (composite materials)
Two dimensional analysis
Two dimensional models
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Summary:Thermoplastic composites are widely considered in structural parts. In this paper attention is paid to sheet forming of continuous fiber laminates. In the case of unidirectional prepregs, the ply constitutive equation is modeled as a transversally isotropic fluid, that must satisfy both the fiber inextensibility as well as the fluid incompressibility. When the stacking sequence involves plies with different orientations the kinematics of each ply during the laminate deformation varies significantly through the composite thickness. In our former works we considered two different approaches when simulating the squeeze flow induced by the laminate compression, the first based on a penalty formulation and the second one based on the use of Lagrange multipliers. In the present work we propose an alternative approach that consists in modeling each ply involved in the laminate as a transversally isotropic fluid – TIF - that becomes 2D as soon as incompressibility constraint and plane stress assumption are taken into account. Thus, composites laminates can be analyzed as a stacking of 2D TIF models that could eventually interact by using adequate friction laws at the inter-ply interfaces.
ISSN:0094-243X
1551-7616
DOI:10.1063/1.4963602