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Belgium's Econcore to produce sustainable type of rudder for Airbus

20 Apr '23
2 min read
Pic: Econcore
Pic: Econcore

Insights

  • The collaboration between Airbus, Fraunhofer, DTU, and EconCore on the EcoRudder project is aimed at developing a green and sustainable rudder structure for an Airbus A320 aircraft, based on thermoplastic honeycomb sandwich composites.
  • This project is part of the larger FASTER H2 initiative, which is funded by the EU's Clean Aviation Research Programme.
EconCore will work with Airbus, the Technical University of Denmark (DTU) and Fraunhofer on a new green and sustainable type of rudder for an Airbus A320 aircraft based on thermoplastic honeycomb sandwich composites.

Airbus, Fraunhofer, DTU and the sandwich core supplier EconCore will develop a new generation green and sustainable rudder structure based on potentially recyclable thermoplastic materials. It forms part of the project and 'FASTER H2', funded by the European Union’s Clean Aviation Research Programme under Horizon Europe and led by Airbus.

The four partners will collaborate on the work package in FASTER H2, called EcoRudder, which focuses on the development of a new generation rudder structure for a single-aisle commercial aircraft. It is envisaged that the rudder structure will be redesigned and replaced with thermoplastic materials that have the potential to be recycled after the aircraft has been decommissioned.

Composite sandwich construction has proven to be a very efficient structural concept in structural aircraft parts. In line with today’s sustainability requirements, green composites are expected to replace conventional thermoset materials such as phenolic resin honeycombs and epoxy laminates. This improvement in sustainability has to be achieved without compromising on mechanical requirements such as damage tolerance under extreme environments and unintended loading scenarios. Sufficient robustness and structural integrity against service loads, as well as potentially recycling of the thermoplastic constituent materials, must also be ensured.

Within the scope of the project, thermoplastic honeycomb sandwich structures will be produced and evaluated against the requirements for the rudder, and a recycling concept for the panels will be demonstrated. Beside the extensive testing and analysis to ensure that the materials meet all requirements for a certification in a structural aircraft component, also a detailed life-cycle analysis (LCA) will be performed to confirm the reduced CO2 footprint of the new thermoplastic honeycomb sandwich rudder.

Fibre2Fashion News Desk (RR)

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