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Wasselynck, Guillaume
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Topics
Publications (9/9 displayed)
- 2024Modeling of electromagnetic phenomena within laminate composite materials
- 2024Integration of inter-ply electrical percolation phenomena in the multiphysics modelling of laminated composite materials
- 2021Eddy Current Non-Destructive Characterization of Carbon Fiber Reinforcement Composites Considering Capacitive Effectcitations
- 2020Focalization of electromagnetic power at the interface between two composites materials for induction weldingcitations
- 2018Focusing of Electromagnetic Field for Induction Welding of Composite Materials by Optimization of Fold Sequence
- 2018Modeling of Eddy Currents in Highly Anisotropic CFRP Materials
- 2017Electrical Conductivity Tensor Modeling of Stratified Woven-Fabric Carbon Fiber Reinforced Polymer Composite Materialscitations
- 2016Electrical conductivity tensor modelling of stratified woven-fabric carbon fiber reinforced polymer composite materialscitations
- 2015Inductive thermography nondestructive testing applied to carbon composite materials: multiphysics and multiscale modeling
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document
Modeling of electromagnetic phenomena within laminate composite materials
Abstract
Laminated composite materials with long conductive carbon fibers and thermoplastic matrix have become an essential part of modern industry. These materials require heat input during many stages in their life cycle. Today, this heat transfer is too slow and too energy-consuming limiting the large-scale development of these materials. Electromagnetic induction is a promising solution for achieving a faster non-contact energy transfer and with high energy efficiency. This paper discusses the different stages involved in developing a numerical modelling tool for integrating the microscopic behavior of these complex composite materials in order to develop new processes.