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3D printed soluble cores keep Porsche purring.


aaron pearson

Aaron Pearson

porsche 911

[caption id="attachment_122713" align="aligncenter" width="500"]

porsche 911

Porsche 911 using parts enabled by Stratasys
FDM-based 3D printing[/caption]

Champion Motorsport has built its reputation on impressive victories in auto racing.  That same winning technology is now available in a line of aftermarket performance products for Porsche cars, including turbo inlet ducts for the Porsche 997 aka Porsche 911. Though traditional manufacturing would have forced it to sacrifice either air flow or aesthetics, Champion found it didn’t have to compromise on either when using 3D printed soluble molds. Stratasys 3D printers made that win possible.

[caption id="attachment_122712" align="aligncenter" width="456"]

Composite turbo inlet duct (black) made using  Stratasys 3D printed FDM soluble core (white)

Composite turbo inlet duct (black) made using
Stratasys 3D printed FDM soluble core (white)[/caption]

To optimize performance, Champion makes the inlet duct out of carbon fiber, a material that is strong, thin, and lightweight. These qualities make it possible to increase the duct’s interior dimensions while maintaining the outer dimension set by factory specifications. More interior space allows better airflow, which, in combination with the lighter weight, improves overall engine performance.

[caption id="attachment_122711" align="aligncenter" width="550"]

Porsche engine created with carbon fiber parts produced using Stratasys 3D printed soluble cores

Porsche engine created with carbon fiber parts produced using Stratasys 3D printed soluble cores[/caption]

The Challenge of Being Single


The problem was that conventional tooling methods could not produce a duct that was perfectly smooth on both the interior and exterior surface. A duct molded in two parts would have to be bonded, which would make it weaker than a duct made of a single piece. The only way to mold it in a single piece was to use a mold that could be removed from within the tube. However, the product of a sacrificial sand core compromised the surface finish and couldn’t deliver the consistency Champion sought.

Chris Lyew, lead mechanical engineer, Champion Motorsport explained the dilemma the company faced: “The performance of the vehicle depends on a smooth internal surface while the customer expects a beautiful external surface.”

[caption id="attachment_122710" align="aligncenter" width="465"]

Variety of complex, composite ducts created using Stratasys 3D printed soluble cores

Variety of complex, composite ducts created using Stratasys 3D printed soluble cores[/caption]

A Brilliant Core Solution


Champion Motorsport found the solution in the Fortus 3D Production System it had been using in the design process. The FDM-based Stratasys 3D printer had served the company in creating functional prototypes for its designs.  It now also took on the challenge of molding the carbon fiber by producing FDM soluble cores.

In a behind the scenes view, Champion explains how the Fortus takes a three dimensional CAD design and then 3D prints a mold based on it. The mold can “be wrapped 360º in carbon, eliminating the need for any seams in the finished part.” A solution is applied to remove the mold and leave behind a perfectly smooth pipe. The one-piece construction delivers consistent quality for the high performance turbo inlet ducts. 3D printing provides what Lyew calls “the magic recipe” for this soluble core production.

In fact, FDM soluble cores have opened up new design possibilities for Champion. Louis Malone, Technical Director, Champion Motorsport “At the end of the day, the FDM technologies - they save us time; they save us money.” It’s a win all around.

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