VAP® stands for

The AIRBUS Defence and Space GmbH (formerly EADS) patented Vacuum Assisted Process (VAP®) uses the properties of modern, semi-permeable membrane systems in highly developed textile composites to apply the effect of a vacuum to the entire surface of a component. This “vacuum assist” ensures that trapped air and gas can be reliably and efficiently removed during resin infusion.

Functional Principle

The Vacuum Assisted Process (VAP®) is a technique to manufacture composite parts using vacuum injection; it applies membrane-assisted low-pressure infiltration.

The surface of the part to be infiltrated with resin is covered with a flexible membrane system. The membrane is permeable to gas but impermeable to resin. When resin is infiltrated into the part inside the membrane, the latter keeps the resin inside the matrix and away from the vacuum duct. Yet, aided by the low pressure in the vacuum duct, trapped air and gas can still escape through the membrane’s micro-permeability and are purged via the textile layer. The vacuum acts uniformly, so purging takes place across the entire contact surface between part and membrane, during and after infiltration.

VAP® – Benefits

VAP® Functional scheme

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VAP® – Patented from AIRBUS Defence & Space GmbH (formerly EADS) – German Patent DE 10013409 – Inventor: Stefan Utecht, Franz Stadler, Jürgen Filsinger, Torsten Lorenz

RAM

Custom Stealth Technology made in Germany

When submarines surface, they find themselves in a particularly dangerous situation.
The masts, mast heads and other components on and above the sail are visible above water and can therefore also be detected by radar systems.

To tackle this issue, COMPOSYST designed its own materials more than a decade ago, which – with the appropriate stealth or RAM technology (Radar Absorbing Material) – enable submarines to remain largely invisible, even above the waterline.

For this purpose, COMPOSYST offers two implementation options:

  • Fairings for inner steel mast structures to prevent detection by radar systems
  • Complete development and construction of entire mast systems made of FRP, which, in addition to being invisible for radar systems, also reduce weight and thus lower the center of gravity. This saves material and manufacturing costs while improving the stability of the vessel

Performance characteristics

The actual radar reflection (orange line) should stay below the red detectable area. Our goal is to keep our stealth units out of the so-called threat scenario. For this, COMPOSYST generates a mast structure or fairings with a reflection behavior of the orange curves.

Well-known companies already rely on the expertise of the European market leader COMPOSYST and their many years of experience with the concrete and reliable implementation of such technological challenges.

All benefits at a glance:

  • Own design and production of active radar absorbing materials and structures
  • Development and implementation of lightweight components in existing naval systems
  • Adapted geometry and materials for radar absorption
  • Decades of experience with marine radar systems
  • Leading supplier in the European market for radar absorbing structures and materials
  • Cost reduction
    – through lower production costs
    – through weight savings
  • Improved stability
3D Printing

Yesterday Milling – Today just print

COMPOSYST is a full-service provider. The time-intensive production of precision tooling becomes simplified by our in-house 3D printer throughout the entire process.
Thereby operations become additionally more sustainable, faster and cost-efficient.

COMPOSYST creates your required tools, components and structural parts individually and tailormade with its 3D printer.
You provide the geometry – we deliver the part.

The printer‘s build chamber (XYZ) with 1200 x 1200 x 1200 mm enables the production of large components in one fell swoop. The double extruder provides a fast production.

COMPOSYST prints components and structural parts – without additional manufacturing steps or additional tooling, which makes the process even more ecological. We use pure (PLA, ABS, PA, PP, PC…) or fibre-reinforced (i.e. carbon or glass fibre) thermoplastics especially for components.

Benefit from our many years of experience: we choose the right material for the individual requirements of your component.

Your benefits:

  • Cost and time savings through radically faster and more flexible production
  • Sustainability: avoid wasteful substractive processes (i.e. milling) and move on to additive manufacturing with 3D printing
  • Changes are significantly easier, save time and money by recycling the materials
  • Budget-friendly production of prototypes and/or individual pieces (small editions also possible)
  • Rapid prototyping: From the first idea via CAD construction and 3D printing to finished product in no time and with a lower budget
  • Save on storage costs: just the digital data needs to be saved
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