Evonik Reveal Technology for Mass-Production of Complex Molded Composite Components

26th January 2017

Composite materials are becoming more common in automotive vehicles as a way of reducing vehicle weight but their use has tended to be limited to more luxurious or sport vehicles due to the relative high cost and production complexity. Chemical company, Evonik, hope to address this with its newly developed PulPress method, which they say allows manufacturers can mass-produce complex molded parts at a reasonable price, taking the technology from the high-end market to large-scale production.

The new method combines two traditional production techniques: compression molding and pultrusion. Combined together, they make automated, continuous production of composite parts possible. The most important raw material in the process is ROHACELL®, a high-performance structural foam core from Evonik that has already proven its merit as a lightweight yet rigid material—one that retains its shape particularly well and is temperature resistant. Fibers are woven around the core before being impregnated with resin. The complete system is then compressed into the desired shape at high temperature and pressure. The method even allows manufacturers to produce complex geometries and integrate recessed areas for threaded components or other fixtures.

Particularly impressive aspects of the new manufacturing process include its design flexibility and cost efficiency, and the crash behavior of the resulting composite parts—parts that are around 75 percent lighter than traditional steel structures. Plus, the PulPress method also reduces costs by up to 60 percent compared to composite parts manufactured using established methods such as resin injection. “These advantages have already won over a large number of customers in the European automotive industry,” says Dr. Sivakumara Krishnamoorthy, manager for new applications in Evonik’s Resource Efficiency Segment. “Molded parts made using PulPress will soon be going into mass production.”

The process is also of interest to manufacturers outside of the auto industry. It could conceivably be applied in aircraft construction as a cost-effective method for producing large numbers of carry-over parts. Finally, lightweight sandwich cores are also becoming more and more important in sports equipment.

 

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