Summary
"IThe IIAMS project is related to the advanced low-weight and high-performance structures domain. More specifically, it is included inside the ITD Airframe development area and it involves the manufacturing and assembling of a new concept of a composite wing box structure that will be tested on the turboprop aircraft prototype of the programme.
The main objective is develop an innovative pilot system able to manufacture an integrated R/H and L/H composite wing box structure according with JTI-CS2-2017-CFP07-AIR-02-53 topic specifications. This pilot system will be based on Out of Autoclave resin infusion technology, and its ultimate purpose is to demonstrate that an alternative technology (to prepreg + autoclave) with lower costs, reduced lead times and lesser environmental footprint can achieve similar design tolerances and quality levels. The result of this development will also allow portability.
Mtorres will optimise its AFP technology to manufacture with the maximum productivity the spar and stringers to simplify the movement of the hot forming station.
They propose to use a light table design to enable the human collaboration with robots as well as to facilitate the direct taping of dry fibres on the mould.
Mtorres will use multi-function connections and optimise the ancillaries to simplify the subsequent infusion and curing processes.
The infusion process will be simulated using specific software and CFD to avoid dry spots, increase the speed, minimise waste materials, decrease the exothermal risk and viscosity development. Then, experimental trials will be carried out using a precise control of the temperature and measuring the resin and hardener flows.
It will be validated the use of self-heated mould and blankets but also ""onsite"" air ovens that can be placed on top of the tools during the cure process.
It will be design, build and test lightweight tooling and modular and collapsible moulds to facilitate the demoulding process.
"
The main objective is develop an innovative pilot system able to manufacture an integrated R/H and L/H composite wing box structure according with JTI-CS2-2017-CFP07-AIR-02-53 topic specifications. This pilot system will be based on Out of Autoclave resin infusion technology, and its ultimate purpose is to demonstrate that an alternative technology (to prepreg + autoclave) with lower costs, reduced lead times and lesser environmental footprint can achieve similar design tolerances and quality levels. The result of this development will also allow portability.
Mtorres will optimise its AFP technology to manufacture with the maximum productivity the spar and stringers to simplify the movement of the hot forming station.
They propose to use a light table design to enable the human collaboration with robots as well as to facilitate the direct taping of dry fibres on the mould.
Mtorres will use multi-function connections and optimise the ancillaries to simplify the subsequent infusion and curing processes.
The infusion process will be simulated using specific software and CFD to avoid dry spots, increase the speed, minimise waste materials, decrease the exothermal risk and viscosity development. Then, experimental trials will be carried out using a precise control of the temperature and measuring the resin and hardener flows.
It will be validated the use of self-heated mould and blankets but also ""onsite"" air ovens that can be placed on top of the tools during the cure process.
It will be design, build and test lightweight tooling and modular and collapsible moulds to facilitate the demoulding process.
"
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/820845 |
Start date: | 01-10-2018 |
End date: | 30-09-2020 |
Total budget - Public funding: | 2 846 625,00 Euro - 1 992 637,00 Euro |
Cordis data
Original description
"IThe IIAMS project is related to the advanced low-weight and high-performance structures domain. More specifically, it is included inside the ITD Airframe development area and it involves the manufacturing and assembling of a new concept of a composite wing box structure that will be tested on the turboprop aircraft prototype of the programme.The main objective is develop an innovative pilot system able to manufacture an integrated R/H and L/H composite wing box structure according with JTI-CS2-2017-CFP07-AIR-02-53 topic specifications. This pilot system will be based on Out of Autoclave resin infusion technology, and its ultimate purpose is to demonstrate that an alternative technology (to prepreg + autoclave) with lower costs, reduced lead times and lesser environmental footprint can achieve similar design tolerances and quality levels. The result of this development will also allow portability.
Mtorres will optimise its AFP technology to manufacture with the maximum productivity the spar and stringers to simplify the movement of the hot forming station.
They propose to use a light table design to enable the human collaboration with robots as well as to facilitate the direct taping of dry fibres on the mould.
Mtorres will use multi-function connections and optimise the ancillaries to simplify the subsequent infusion and curing processes.
The infusion process will be simulated using specific software and CFD to avoid dry spots, increase the speed, minimise waste materials, decrease the exothermal risk and viscosity development. Then, experimental trials will be carried out using a precise control of the temperature and measuring the resin and hardener flows.
It will be validated the use of self-heated mould and blankets but also ""onsite"" air ovens that can be placed on top of the tools during the cure process.
It will be design, build and test lightweight tooling and modular and collapsible moulds to facilitate the demoulding process.
"
Status
CLOSEDCall topic
JTI-CS2-2017-CfP07-AIR-02-53Update Date
26-10-2022
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