NetComposites
Attwater

Fraunhofer IFAM Award Joseph von Fraunhofer Prize 2012

18 May 2012

One of this year‘s Joseph-von-Fraunhofer prizes was awarded to Dr. Jörg Ihde and Dr. Uwe Lommatzsch, from the Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM in Bremen, for their development of a resource-efficient process for the highrate deposition of functional nano-layers. 

The IFAM team, alongside Plasmatreat, developed this new kind of plasma coating process that they claim works at ambient pressure.

“And that poses a major challenge”, explains Jörg Ihde from the Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM in Bremen. “Because the pressure is more than 10,000 times higher and the absence of a vacuum reactor, we had to stop unwanted particles from forming and embedding in the coating. That was the key to developing robust and efficient industrial processes using the new plasma system.”

According to IFAM, the central element is a plasma nozzle. The nozzle is no bigger than a typical spray can yet it contains a highly complex coating system. “In the nozzle, an electrical discharge generates small flashes - a plasma that is expelled from the nozzle in the form of a jet. We systematically feed into the nozzle outlet those materials that are excited and fragmented in the plasma and then deposited out of the plasma jet as a functional nano-layer onto the surface”, explains Uwe Lommatzsch, IFAM. “We achieve extremely high deposition rates, enabling fast and cost-effective production processes to be realised.”

IFAM explains that the use of a nozzle allows the coating to be applied very precisely and only where it is needed, thus conserving resources. “We can control the processes so that the same nozzle can be used to apply coatings with various functionalities, for corrosion protection or for increasing or reducing adhesion, for instance”, adds Jörg Ihde. They say only very small amounts of coating material are required and practically all materials and material combinations can be coated and that the process offers, in addition to the coating qualities and functionalities, even more benefits: it can be easily integrated into an inline production process, requires little space and is easy to automate, meaning it can be controlled via a robot.

IFAM describe low investment costs and easy on the environment. The positive characteristics benefit industrial production: depositing an adhesion-promoting coating on a car window edge before gluing it in, to replace environmentally damaging chemicals or as a substitute for thick protective paint on printed circuit boards, which improves heat dissipation and hence prolongs service life. The process is already employed in the automotive industry and the energy sector to provide protection against corrosion and aging.






Related / You might like...

Compcut 200 Increases Testing Productivity at Renault Sport Racing

Sharp & Tappin has installed and commissioned a Compcut 200 composite plate saw at Renault Sport Racing in Enstone, Oxfordshire, UK.

80-Year-Old Massachusetts Bridge Gets FiberSPAN FRP Deck

The Massachusetts Department of Transportation (MassDOT) selected a lightweight FiberSPAN fibre reinforced polymer (FRP) bridge deck, manufactured by Composite Advantage, for the Rugg Bridge on Route 57.

Electric GT’s Tesla P100DL Features Bcomp Flax Fibre Technologies

Electric GT Holdings and SPV Racing recently unveiled the race-ready version of the EPCS V2.3 Tesla P100DL at Circuit de Barcelona-Catalunya. The car features lightweight body parts made using Bcomp's ampliTex and powerRibs natural fibre composite reinforcement products, contributing to a 500 kg weight reduction over the road edition.