| People | Locations | Statistics |
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| Ferrari, A. |
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| Schimpf, Christian |
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| Dunser, M. |
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| Thomas, Eric |
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| Gecse, Zoltan |
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| Tsrunchev, Peter |
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| Della Ricca, Giuseppe |
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| Cios, Grzegorz |
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| Hohlmann, Marcus |
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| Dudarev, A. |
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| Mascagna, V. |
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| Santimaria, Marco |
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| Poudyal, Nabin |
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| Piozzi, Antonella |
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| Mørtsell, Eva Anne |
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| Jin, S. |
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| Noel, Cédric |
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| Fino, Paolo |
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| Mailley, Pascal |
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| Meyer, Ernst |
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| Zhang, Qi |
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| Pfattner, Raphael | Brussels |
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| Kooi, Bart J. |
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| Babuji, Adara |
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| Pauporte, Thierry |
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Boisse, P.
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Topics
Publications (12/12 displayed)
- 2023Kinematic modeling of transverse shear in textile composite reinforcements formingcitations
- 2022A Hypoelastic Approach for Simulating the Independent Bending Behavior of Textile Composite within the Stress Resultant Shellcitations
- 2021Analysis of the Forming of Interlock Textile Composites Using a Hypoelastic Approachcitations
- 2020Meso-FE modelling of textile composites and X-ray tomographycitations
- 2015Continuum and discrete models for structures including (quasi-) inextensible elasticae with a view to the design and modeling of composite reinforcementscitations
- 20153D composite reinforcement meso F.E. analyses based on X-ray computed tomographycitations
- 2014Meso-scale FE analyses of textile composite reinforcement deformation based on X-ray computed tomographycitations
- 2014Hyperelastic model for forming simulations of a non-crimp 3D orthogonal weave E-glass composite reinforcemen
- 2010Use of numerical simulation of woven reinforcement forming at mesoscale: Influence of transverse compression on the global responsecitations
- 2007Composites formingcitations
- 2004A cooperative benchmark effort on testing of woven composites
- 2004A Cooperatieve Benchmark Effort on Testing of Woven Composites
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article
Analysis of the Forming of Interlock Textile Composites Using a Hypoelastic Approach
Abstract
International audience ; Numerical simulation of the textile composites forming plays an important role in improving the manufacturing quality, reducing the manufacturing cycle, and manufacturing cost. The focus is on the shaping of one or several layers of G1151 interlock reinforcement. Based on the continuous approach at the macroscale, an approach using a hypoelastic behavior is proposed considering the specific interlock textile material behavior. The stress accumulation is carried out in frames defined by the direction of the warp and weft yarns. The approach is implemented in the commercial software Abaqus. By adding inter-layer contact properties, this approach can realize the simulation of multi-layers textile composites with different yarn orientation configurations. Experimental analyses have shown that this approach can correctly trace the specific behavior of interlock textile composites.