VAP® Components

VAP® components:
Design. No limits.

VAP® (Vacuum Assisted Process) technology is an aerospace industry-wide standard for manufacturing of highly stressed structural components. It gives engineers the necessary degrees of freedom to implement complex 3D geometries. Tooling costs are kept at a minimum by using flexible vacuum structures.

EFW uses VAP® (Vacuum Assisted Process) technology for manufacturing of A350 VAP® beams for A350XWB.

VAP® components: general characteristics

  • Highest degree of design freedom for 3D geometries
  • Wide range of potential applications: e.g. aviation, transportation, medical purposes
  • Engineering and manufacturing services certified by EASA 21J and 21G

VAP® at EFW: state-of-the-art manufacturing

  • Single unit production of carbon fibre reinforced plastics as well as large scale manufacturing
  • Real time production monitoring during every step of the VAP® infiltration
  • On-line monitoring of all key process indicators (vacuum, resin and tooling temperature etc.)
  • Automated weight controlled resin infusion (+/- 5g per infusion)
  • Fully integrated into existing ERM (Electronic Resource Management) system at EFW

VAP® manufacturing at EFW unites all advantages of VAP® technology with the cost savings of an efficient serial production. We use state-of-the-art planning and management systems to ensure a stable manufacturing output with currently 150 different part numbers for A350XWB Programme.

A350
The A350 combines passenger comfort, cutting edge technology, unique industrial process and environmental sustainability.
Image courtesy of Airbus SAS
EFW cabin layout
Integration of EFW´s VAP® CFRP ribs into floor grid structure: for more flexible cabin layout
Graphic: Heimrich & Hannot GmbH | Copyright: EFW Elbe Flugzeugwerke GmbH

Major product features of A350 VAP® beam

  • Successfully established in the A350 cabin layout: for maximum cabin layout flexibility
  • Operation efficiency: maintenance-free up to 12 years
  • Outstanding mechanical properties: impact tolerance up to 170 Joule
  • Up to 50 % more cost efficient compared to same components made with Titanium alloys
  • Maximum part dimensions: 1440 mm x 500 mm x 100 mm
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