BME CLEAN SKY 032
"Resin, Laminate and Industrial Nanoparticles Concept and Application. Industrialization"
| Coordinatore | BUDAPESTI MUSZAKI ES GAZDASAGTUDOMANYI EGYETEM
Organization address
address: MUEGYETEM RAKPART 3 contact info |
| Nazionalità Coordinatore | Hungary [HU] |
| Totale costo | 180˙000 € |
| EC contributo | 134˙999 € |
| Programma | FP7-JTI
Specific Programme "Cooperation": Joint Technology Initiatives |
| Code Call | SP1-JTI-CS-2010-01 |
| Funding Scheme | JTI-CS |
| Anno di inizio | 2010 |
| Periodo (anno-mese-giorno) | 2010-10-01 - 2012-12-31 |
Partecipanti
| # | ||||
|---|---|---|---|---|
| 1 |
BUDAPESTI MUSZAKI ES GAZDASAGTUDOMANYI EGYETEM
Organization address
address: MUEGYETEM RAKPART 3 contact info |
HU (BUDAPEST) | coordinator | 134˙999.00 |
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Obiettivo del progetto (Objective)
'The aim of this proposal is to develop hybrid epoxy resin composites, where both the matrix and the carbon fibre reinforcement contains nanoparticles, in order to improve the mechanical, electrical and thermal properties of the carbon fibre reinforced aeronautical structures. The dispersion of the selected nanoparticles in epoxy resin matrix will be carried out by a three step masterbatch technique, resulting in low viscosity, evenly dispersed CNT filled epoxy resin systems ready for industrial size use. Rheological, morphological and spectroscopic (Raman, FTIR) characterization of the loaded materials will be carried out. Polymer nano/microfibers loaded with CNT and other nanoparticles, which serve as precursors for carbon fibres, will be produced by electrospinning method from PAN/DMF solution of CNTs. Optimal parameters for the graphitization of these yarns will be determined. Parallelly arranged CNT reinforced nanofibrous yarns will be carbonized and consequently infiltrated by the CNT filled matrix mixed with the curing agent. The final outcome is a tape consisting of an epoxy/CNT hybrid matrix and quasi-unidirectional carbon nanofibre/CNT yarn hybrid reinforcement. Thermal and electrical conductivity of the prepared laminate samples will be determined according to standard methods in the function of dispersion method and nanoparticles loading. Laminate samples will be evaluated against conducted lightning current pulses. Static (tensile, bending, interlaminar shear strength properties), dynamic (instrumented Charpy impact, instrumented falling weight impact, dynamic interlaminar properties) and fatigue testing of the composites will be carried out. After testing the mechanical, electrical and thermal properties of composites, the industrial applicability of the developed electrospinning and graphitization methods and prepreg tape product will be studied.'