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Trichet, Didier
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Topics
Publications (10/10 displayed)
- 2024Modeling of electromagnetic phenomena within laminate composite materials
- 2024Integration of inter-ply electrical percolation phenomena in the multiphysics modelling of laminated composite materials
- 2023Comparison of three methodologies to simulate induction heating in carbon fiber reinforced polymer
- 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
Inductive thermography nondestructive testing applied to carbon composite materials: multiphysics and multiscale modeling
Abstract
This paper present a high potential NDT technique based on electromagnetic induction and thermography method called induction thermography or eddy-current thermography applied to laminated CFRP composites. Accurate assessment of the performance of this technique requires the development and use of a specific multiphysics and multiscale computation code in which mesoscopic model is used in macroscopic scale simulations. Simulation results show that short time heating is advantageous.