Aluminum 3D-printed steering shaft bearing for student race car reduces weight by 50%

The new TU Darmstadt racecar for the current Formula Student competition contains five ultralight 3D-printed components from Heraeus.

For the racecar 2016 of TU Darmstadt Racing Team 3D-printing products made by Heraeus were already used.

A steering shaft bearing made out of a special aluminum alloy (AlSi10Mg) is nearly 50% lighter than the previous component. The new steering shaft bearing, designed and printed by Heraeus precisely to the specifications of the TU Darmstadt racing team, now weighs barely 300 grams while maintaining the same mechanical strength and stability.

The new TU Darmstadt racecar for the current Formula Student competition contains five ultralight 3D-printed components from Heraeus.

“We completely redesigned the part and optimized it through simulations to achieve the maximum weight reduction. The combination of materials and construction expertise with printing know-how was crucial for reaching this ambitious goal,” says Tobias Caspari, head of Heraeus Additive Manufacturing.

The steering shaft bearing made out of a special aluminum alloy by Heraeus is nearly 50% lighter than the previous component.

For the new TU Darmstadt racecar, the Heraeus team also printed a total of four motor shafts for each wheel suspension, which are 50% lighter than their predecessors.

“The Formula Student is a good testing ground for our young development team, where they can test and optimize new designs and materials for additive manufacturing,” Caspari says.

Users increasingly opt for the design freedom of 3D printing

More and more users are intentionally taking advantage of the design freedom that additive manufacturing offers, rather than simply recreating a previously used form. “Additive manufacturing, which involves building up layer upon layer of metal powders, makes it possible to construct much lighter but still stable functional components with entirely new design possibilities. At the same time, we conserve resources and can recycle any excess powder,” says Tobias Caspari, describing the advantages of this innovative manufacturing technology.

For the new TU Darmstadt racecar, the Heraeus team printed a total of four motor shafts for each wheel suspension, which are 50% lighter than their predecessors.

Heraeus has been developing special metals and the corresponding 3D printing processes since 2013. The challenges started with manufacturing the powder. Materials and process expertise are crucial, as the metal powders and printing process must be perfectly aligned.

At the Hanau 3D Center, users have access to experts in design and process simulation, several production facilities, and recycling options for used metal powder. Business in the area of additive manufacturing is gaining momentum, and printable metal powder alloys are continuously being added to the product portfolio. These include intermetallic alloys, bioresorbable materials, and gradient materials, as well as amorphous metals, a metallic glass with special mechanical properties.

This Formula Student race series is an international construction competition for engineers, in which student teams from around the world compete with racecars they have designed and built themselves. First launched as Formula SAE in 1981 in the USA, the race series was brought to Europe as Formula Student in 1998. The Technical University (TU) Darmstadt formed a club specifically for the purpose of participating in Formula Student: the TU Darmstadt Racing Team e.V. (DART). It is both a registered nonprofit organization and a student group at the TU Darmstadt.

Heraeus Holding GmbH
www.heraeus.com