Roush Performance Case Study

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Production of end-use parts for the automotive industry using the H350 3D printer Additive manufacturing on a new level. Accelerate your automotive production through consistency and reliability.

Roush Performance prints front grill camera mount with SAF™ technology using the H350™ printer.

About Roush Performance

Founded by motorsport legend Jack Roush, Roush Performance develops aftermarket style and performance improvements for OEM vehicles like the Ford Mustang and F-150 pickup truck and upgrade packages for other select vehicles.

Challenge

A late-stage design change for the front grill camera location became necessary on the Roush F-150 pickup truck due to an ADAS (Advanced Driver Assistance System) issue. The solution involved either redesigning the grill or the camera mount. Since the grill was already in production with finished units, a redesigned support offered a better alternative. However, that option required new injection mold tooling, jeopardizing the ability to meet the truck’s production and delivery schedule.

Solution

Instead of injection molding, Roush engineers 3D printed the mounts with SAF™ (Selective Absorption Fusion™) technology using the H350™ printer. This powderbed process provided sufficient throughput over several build cycles to make several thousand parts for the entire production run of F-150 vehicles. The SAF process also produces parts with nearly isotropic mechanical properties and the consistency needed to satisfy PPAP (production part approval process) quality specifications.

H350™ Printer

Impact

3D printing the camera mount resulted in at least a 50% cycle time reduction compared to injection molding, allowing Roush to meet its production schedule. The injection mold solution would have taken three to four months to get from the initial tool design to the final parts and cost approximately $30K. The cost to print the SAF parts was about $19.5K, for a 35% savings, and cycle time was cut to eight weeks. Additionally, a 3D printed prototype of the new mount design showed that it was not optimal. Roush was able to quickly 3D print a better design and print the final parts, avoiding additional delays and costs to rework a mold for the redesigned part.

Roush Performance - SAF 3D Printing with the H350™ Printer

Read the Complete Use Case!

Download the complete use case to learn how Roush Performance was able to have a 50% cycle time reduction and 35% cost savings on their auto grill camera mount.

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Roush Performance Prints Front Grill Camera Mount Using the H350™ Printer

Recommended Downloads

Roush Performance prints front grill camera mount with SAF™ technology using the H350™ printer.

About Roush Performance

Challenge

Solution

Impact

Read the Complete Use Case!

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Discover how SAF technology solves supply chain challenges for automotive volume production and spare parts.

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Roush Performance Prints Front Grill Camera Mount Using the H350™ Printer

Recommended Downloads

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Roush Performance prints front grill camera mount with SAF™ technology using the H350™ printer.

About Roush Performance

Challenge

Solution

Impact

Read the Complete Use Case!

Related Content

Discover how SAF technology solves supply chain challenges for automotive volume production and spare parts.

Injection Molding vs. 3D Printing with SAF

The Future of Automotive: Shifting from Traditional to Additive Manufacturing