Summary
In order to maintain the leadership of the European aeronautics, the SuCoHS project will investigate potential weight and cost savings in expanding the use of composite materials in areas of demanding high thermal conditions (high temperature and fire).
In particular, this project envisages new structural concepts with novel multi-material composites to provide high resistivity against thermal, mechanical and fire loading. These developments also cater for high production rates, providing a cost competitive manufacturing process at minimum material and energy consumption, while reducing the requirement for visual inspection or rework. New solutions for structural health monitoring are considered within the structures to enable condition-based maintenance taking into account actual loading and structural conditions.
Instead of an isolated investigation of innovative technologies the project will develop an integrated framework for the adaption of these promising technologies to different aeronautic components to increase efficiency during design, manufacturing and operation.
Three industrial use cases are defined from real industrial design challenges to set requirements, to validate new technologies and to demonstrate technical feasibility near to operation environment: a high temperature resistance nacelle component, a composite aircraft interior shell and a tail cone panel substructure.
The SuCoHS project gathers 14 partners from 7 European countries, amongst which 2 technical universities, 3 research centers, 4 SMEs and 8 large companies. The requested EU funding amounts to 6 638 944 Euros for a 3-year project duration.
In particular, this project envisages new structural concepts with novel multi-material composites to provide high resistivity against thermal, mechanical and fire loading. These developments also cater for high production rates, providing a cost competitive manufacturing process at minimum material and energy consumption, while reducing the requirement for visual inspection or rework. New solutions for structural health monitoring are considered within the structures to enable condition-based maintenance taking into account actual loading and structural conditions.
Instead of an isolated investigation of innovative technologies the project will develop an integrated framework for the adaption of these promising technologies to different aeronautic components to increase efficiency during design, manufacturing and operation.
Three industrial use cases are defined from real industrial design challenges to set requirements, to validate new technologies and to demonstrate technical feasibility near to operation environment: a high temperature resistance nacelle component, a composite aircraft interior shell and a tail cone panel substructure.
The SuCoHS project gathers 14 partners from 7 European countries, amongst which 2 technical universities, 3 research centers, 4 SMEs and 8 large companies. The requested EU funding amounts to 6 638 944 Euros for a 3-year project duration.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/769178 |
| Start date: | 01-09-2018 |
| End date: | 28-02-2022 |
| Total budget - Public funding: | 6 638 938,00 Euro - 6 638 938,00 Euro |
Cordis data
Original description
In order to maintain the leadership of the European aeronautics, the SuCoHS project will investigate potential weight and cost savings in expanding the use of composite materials in areas of demanding high thermal conditions (high temperature and fire).In particular, this project envisages new structural concepts with novel multi-material composites to provide high resistivity against thermal, mechanical and fire loading. These developments also cater for high production rates, providing a cost competitive manufacturing process at minimum material and energy consumption, while reducing the requirement for visual inspection or rework. New solutions for structural health monitoring are considered within the structures to enable condition-based maintenance taking into account actual loading and structural conditions.
Instead of an isolated investigation of innovative technologies the project will develop an integrated framework for the adaption of these promising technologies to different aeronautic components to increase efficiency during design, manufacturing and operation.
Three industrial use cases are defined from real industrial design challenges to set requirements, to validate new technologies and to demonstrate technical feasibility near to operation environment: a high temperature resistance nacelle component, a composite aircraft interior shell and a tail cone panel substructure.
The SuCoHS project gathers 14 partners from 7 European countries, amongst which 2 technical universities, 3 research centers, 4 SMEs and 8 large companies. The requested EU funding amounts to 6 638 944 Euros for a 3-year project duration.
Status
CLOSEDCall topic
MG-1.3-2017Update Date
26-10-2022
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Organisations
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| DEUTSCHES ZENTRUM FUR LUFT - UND RAUMFAHRT EV (Coördinator)
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| AERNNOVA ENGINEERING DIVISION SAU
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| APODIUS GMBH
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| B/E AEROSPACE (UK) LIMITED
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| FACHHOCHSCHULE NORDWESTSCHWEIZ
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| L - UP SAS
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| NORTH THIN PLY TECHNOLOGY SARL
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| OFFICE NATIONAL D'ETUDES ET DE RECHERCHES AEROSPATIALES (ONERA)
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| PHOTONFIRST TECHNOLOGIES BV
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| SHORT BROTHERS PLC
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| Stichting Nationaal Lucht- En Ruimtevaartlaboratorium (NLR - Royal Netherlands Aerospace Centre)
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| Synthesites
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| TECHNISCHE UNIVERSITAET HAMBURG-HARBURG
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| TECHNOBIS BV
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| TECHNOBIS IPPS BV