Summary
With strong growly rates of 13% in the aero sector, and demands predicted to be doubled by 2032, carbon composites (CC) are under the spotlight. CC production requires a quick ramp-up that needs to be based on robust materials & processes and a solid manufacturing supply chain, where higher production rates and cost reduction are essential. The aim of AIRPOXY is to reduce production & MRO costs of CC parts in aeronautics by introducing a new family of enhanced composites that preserve all the advantages of conventional thermosets, while showing new unprecedented features such as Re-processability, Reparability and Recyclability. This will be possible through further development & validation of a family of ground-breaking thermoset resins (recently invented/patented by CID) including dynamic bonds which enable such smart behaviour. Conversion of the technology from TRL3 to 5 will be achieved in AIRPOXY, through 2 representative demonstrators of aircraft panels. Thermoforming processes previously unthinkable for thermosets will reduce manufacturing cost of CC parts by35% vs autoclave, reducing processing times from hours to minutes. Faster/cheaper repair technologies, in combination with SHM, will reduce significantly MRO costs. Additionally, a novel welding process will reduce CC bonding costs by up to 50%. Such new features will foster competitiveness & sustainability in the European aeronautics sector. AIRPOXY relies on a multidisciplinary consortium of 11 partners from 6 countries; CID as resin inventor, key technology providers IVW (thermoforming & welding), EUT(RTM), COEX(SQRTM), UOI(SHM); AEF (process simulation software), aircraft components manufacturers (EIRE, IDEC, SON), standardization experts (UNE) & an aeroconsultancy (ART). They will be supported by a strong advisory board (AIRBUS, Leonardo, Huntsman, SGL and EREA). Maximum impact of AIRPOXY will be ensured through well-balanced dissemination, communication and exploitation activities.
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| Web resources: | https://cordis.europa.eu/project/id/769274 |
| Start date: | 01-09-2018 |
| End date: | 31-08-2022 |
| Total budget - Public funding: | 6 497 512,00 Euro - 6 497 512,00 Euro |
Cordis data
Original description
With strong growly rates of 13% in the aero sector, and demands predicted to be doubled by 2032, carbon composites (CC) are under the spotlight. CC production requires a quick ramp-up that needs to be based on robust materials & processes and a solid manufacturing supply chain, where higher production rates and cost reduction are essential. The aim of AIRPOXY is to reduce production & MRO costs of CC parts in aeronautics by introducing a new family of enhanced composites that preserve all the advantages of conventional thermosets, while showing new unprecedented features such as Re-processability, Reparability and Recyclability. This will be possible through further development & validation of a family of ground-breaking thermoset resins (recently invented/patented by CID) including dynamic bonds which enable such smart behaviour. Conversion of the technology from TRL3 to 5 will be achieved in AIRPOXY, through 2 representative demonstrators of aircraft panels. Thermoforming processes previously unthinkable for thermosets will reduce manufacturing cost of CC parts by35% vs autoclave, reducing processing times from hours to minutes. Faster/cheaper repair technologies, in combination with SHM, will reduce significantly MRO costs. Additionally, a novel welding process will reduce CC bonding costs by up to 50%. Such new features will foster competitiveness & sustainability in the European aeronautics sector. AIRPOXY relies on a multidisciplinary consortium of 11 partners from 6 countries; CID as resin inventor, key technology providers IVW (thermoforming & welding), EUT(RTM), COEX(SQRTM), UOI(SHM); AEF (process simulation software), aircraft components manufacturers (EIRE, IDEC, SON), standardization experts (UNE) & an aeroconsultancy (ART). They will be supported by a strong advisory board (AIRBUS, Leonardo, Huntsman, SGL and EREA). Maximum impact of AIRPOXY will be ensured through well-balanced dissemination, communication and exploitation activities.Status
CLOSEDCall topic
MG-1.3-2017Update Date
26-10-2022
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Organisations
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| CIDETEC (Coördinator)
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| ALTAIR ENGINEERING FRANCE SARL
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| ARTTIC
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| ASOCIACION ESPAÑOLA DE NORMALIZACION Y CERTIFICACION
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| COEXPAIR SA
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| EIRECOMPOSITES TEORANTA (EC)
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| FUNDACIO EURECAT
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| IDEC, INGENERIA Y DESARROLLOS DE COMPOSITES SL
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| Institut fuer Verbundwerkstoffe GmbH
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| PANEPISTIMIO IOANNINON
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| SOCIETE NATIONALE DE CONSTRUCTION AEROSPATIALE SONACA SA