Formula Student Team Uses EOS P 396 for 3D Printed Airflow in the Battery Housing
DHBW Engineering Stuttgart | Success Story
-
Design allows for the fast servicing of safety-relevant parts
-
Reduction of the component weight by 80 % to just 77 g
-
Well over twice the cooling performance when compared to the previous year's car
"EOS' expert knowledge and technology have really helped us to get our electric powered race car eSleek14 on the track and recording great times. The advantages of Additive Manufacturing are very convincing: lightweight components, the fast realization of ideas, and all this possible for extremely small part quantities. The available materials mean that safety is never compromised. Thanks to the instruction received from EOS we were able to get the maximum out of the process – and prove ourselves out on the track."
David Köhler | Assistant Head of Battery Development for the race team 2013/2014
Serious Power: Cooling System for Formula Student Race Car Produced With Additive Manufacturing
The eSleek14, belonging to the DHBW Engineering Stuttgart team, has two electric motors, each with 60 hp. The electricity that feeds this speed machine comes from batteries fixed laterally inside the vehicle. The construction of the air cooling system was supported by EOS in its role as Additive Manufacturing expert.
In the development of the battery container it was possible to realize not only the cooling channels between the individual modules, but also a cooling duct that directed the air back outside in the most efficient way at the end of the container. In order to satisfy the strict specifications for component weight, the team chose the lightweight fine polyamide PA 2200 for the construction. This material is characterized by its high rigidity and good thermo conductivity – perfect characteristics for motorsports applications.
The air duct was produced using the EOS P 396, the laser beam melting the powdered material layer by layer to form the final component.The next step would be to successfully integrate the components into the vehicle. The weight also met the desired criteria: the cooling duct component weighs just 77 g.
"We decided to have the cooling duct additively manufactured and, thanks to EOS' technology, we had complete freedom of design. With such small quantities, injection-moulding didn't make sense, and we would anyway, have had to make changes to the construction design."
David Köhler | Assistant Head of Battery Development for the race team 2013/2014
The Results at a Glance
- -80 % Weight reduction
- 100 % Performance improvement
EOS Success Stories
Explore three decades of pioneering 3D printing excellence with EOS
Producing Topology-Optimized Steering Stub Axle
Success Story | Formula Student
In the construction the student engineers employed for the first time an additive manufacturing (AM) process and the car went on to win the title.
Additive Manufacturing for the Formula Student
Success Story | GreenTeam Uni Stuttgart
Design of a flow optimized, oil resistant and flameproof distribution unit for the cooling system of an electric racing car.
