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Titre : Simulation of composites' heating : Joining of fiber-reinforced plastic composites Type de document : texte imprimé Auteurs : Lucas Ost, Auteur ; Oleg Shapovalov, Auteur ; Felix Kuke, Auteur ; Nikolay Doynov, Auteur ; Holger Seidlitz, Auteur ; Vesselin Michailov, Auteur ; Marcello Ambrosio, Auteur Année de publication : 2023 Article en page(s) : p. 60-64 Langues : Anglais (eng) Catégories : Assemblages (technologie)
Composites à fibres -- Soudage
Composites à fibres de carbone
Fibres à orientation unidirectionnelle
Polyamide 6
Simulation par ordinateur
Soudage par rayonnement infrarougeIndex. décimale : 668.4 Plastiques, vinyles Résumé : Modern material-compatible joining methods for fiber-reinforced plastics require the heating of the materials. In order to predict the respective complex temperature fields and curves, the Fraunhofer IAP and the BTU Cottbus-Senftenberg have developed numerical methods, which are able to simulate different radiation sources and process sequences as well. Note de contenu : - Heat fluxes and radiation distribution
- Radially symmetric model : temperature prediction at the center of the sample
- Three-dimensional model : Prediction of the temperature distribution
- Comparison of experiment and simulation
- The appropriate radiator distance
- Fig. 1 : Experimental setup for temperature measurements on the bottom (left) and top surface (right) of the FRP plate : the thermographic system arrayed from the bottom on the non-radiated surface is calibrated by a single central thermocouple. Multiple thermocouples distributed over the upper side of the plate provide the measurement on the radiated plate surface
- Fig. 2 : Heat fluxes and radiation distribution in the modeled system: Depending on the distance of the radiator, the radiation distributionchanges
- Fig. 3 : The heat capacity of the examined CFRP depends strongly on the temperature
- Fig. 4 : Comparison between experimentally measured and numerically calculated temperature progressions in the center of both surfaces during and after heating : the values show a high degree of agreement between experiment and radially symmetric FEM-simulation
- Fig. 5 : Comparison of the temperature curves of the top surface between FEM and experiment for different distances from the center of the plate: The radiator distance has a greater influence on the heating rate than the plate thickness
- Fig. 6 : Comparison of the temperature fields on the bottom surface of a 2 mm thick CFRP plate during heating shows a good agreement between FEM (lower image halves) and experiment (upper image halves)En ligne : https://drive.google.com/file/d/1DJyidaXLEYd1gXRuJRFzBGUr4xmP9k3s/view?usp=drive [...] Format de la ressource électronique : Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=40155
in KUNSTSTOFFE INTERNATIONAL > Vol. 113, N° 4 (2023) . - p. 60-64[article]Réservation
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