Combining mechanical performance and cost efficiency, a new generation of prepregs for aircraft parts is under development through a high-level collaboration between
It's no news that composite materials are on a steady course to replace metal in airplanes. The necessity to curb emissions and therefore reduce the weight of aircraft is a pressing requirement that is only set to put increasing pressure on the aerospace industry in the years to come. But this is a slow and lengthy process, in part because of the cost of the high performance composite materials needed to make primary structure airplane parts such as wings, empennage and fuselage.
Large-tow, lower cost, high performance carbon fiber
It's with this problem in mind that
The idea was to combine the lower cost of large-tow carbon fiber (produced with a much higher number of filaments - in this case, 50K instead of the standard 12K or 24K - therefore with a higher throughput) with a mechanical performance profile that can meet the needs of the aerospace industry. 'It's more difficult to obtain demanding mechanical performance with a larger tow carbon fiber,' explains Frank, 'but that's what we aim to do by optimizing the interaction between the carbon fiber and the resin system. That's where the novelty of this product resides.'
Tackling aerospace's need for composites
Developing new carbon fiber composite materials is the target of this high level collaboration between the two companies, a first for
The reputation of SGL Carbon's products is strongly established in industrial domains such as wind energy and automotive manufacturing, 'but they needed a partner with the right capabilities in order to address the aerospace market,' says Frank. And
And this is only the beginning. At this point, aerospace manufacturers are initiating the screening process of these new composite materials in order to eventually use them in one of their programs. The era of the lightweight airplane is about to take another step forward.
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