Latin-America (Español)
Latin-America (Español)
Case Study

USA Luge goes for gold with Stratasys.


The USA Luge team

Learn how the USA Luge team uses Stratasys FDM technology to stay ahead of the pack.

Customer profile.

USA Luge is the organization responsible for developing and selecting the U.S. national competitive luge race teams. Luge is both the name of the competition and the sled used in the race. Representing the United States at international and Olympic racing events, the USA Luge team has earned almost 600 medals in elite level and junior international competition since 1994. 

Challenge.

Luge design plays a critical role in race outcomes where the difference between winning and losing is measured in thousandths of a second. Testing different sled designs and making adjustments as quickly as possible is crucial to develop the fastest sled in the shortest amount of time. Additionally, each sled on the team should be designed to accommodate the unique physical characteristics of the various riders for optimal performance. However, sleds made with traditional manufacturing techniques take weeks to produce, limiting the quantity that can be made and tested before the season’s start.
The 3D printed lay-up mold for the main sled pod, made with ASA thermoplastic.

Solution. 

Instead of using traditional, time-consuming fiberglass lay-up tooling, the USA Luge team 3D printed a sled mold with FDM® technology using ASA thermoplastic. The mold design was adapted to fit the riders and finished in a few days. To make the complex doubles tower which the front rider sits on, the team 3D printed a lay-up mold using ST-130 sacrificial tooling material. The mold is wrapped in carbon fiber and after cure, the 3D printed material is washed away in a solution bath leaving the composite shape.
The mold for the tower assembly, printed from soluble ST-130 material.

Impact.

Using 3D printed composite lay-up tools saved USA Luge five months in the development of a single sled – from six months down to four weeks. With an off-season that is only five months long, this gives USA Luge much more time to build, test and validate multiple designs. 3D printing’s design freedom also makes the low quantities and high customization much less costly than traditional lay-up tooling methods.

Download the case study

Related Content

3d printing real elastomers thermoplastics

3d printing real elastomers and other thermoplastics

Learn about different 3D printing materials and essential information regarding application fit, material characteristics and discover the best choice for you.

Vea más
JF solutions hero.

3D printed jigs and fixtures for the factory floor.

Learn how Stratasys 3D printing is changing the way businesses approach jigs and fixtures for the factory floor.

Vea más
3d printing real elastomers thermoplastics

Learn about different 3D printing materials and essential information regarding application fit, material characteristics and discover the best choice for you.

JF solutions hero.

Learn how Stratasys 3D printing is changing the way businesses approach jigs and fixtures for the factory floor.