Quickly and economically produce a new water pump housing for a vintage race car to make an appearance at the Goodwood Festival of Speed.
- Geomagic? Control X? inspection software by 3D Systems
- Geomagic? Design X? scan-to-CAD software by 3D Systems
- CT scanner
- ProX? DMP 320 metal 3D printer by 3D Systems
- LaserForm? 316-L stainless steel material by 3D Systems
- Reverse engineered, inspected, and 3D printed a water pump housing 50% faster than traditional sand-casting methods.
- 3D printed a water pump housing in only 3 days.
- Corrosion-resistant LaserForm 316-L stainless steel material performed like regular metal.
- New part mated perfectly with existing pump components.
- Pump performed with distinction at Goodwood Festival of Speed.
Since its momentous run in 1952, #28 has been displayed at the Indianapolis Motor Speedway Museum and the Cummins corporate office building. In 1969, #28 ran a lap around the Indy track prior to the start of the race to mark the Cummins 50th anniversary celebration. The last time #28 ran was at the Goodwood Festival of Speed in the late 1990s.
“As we prepared the car to run again for the first time in almost 20 years, we noticed severe pitting and corrosion on the water pump,” said Greg Haines, design and development leader for the X15 engine and member of the Cummins history and restoration team. “In a few places, the housing was pitted all the way through and was only kept from leaking by mineral deposits that covered the holes. We needed a new housing quickly if we were to meet our commitment to run the car at Goodwood.”
Cummins engineers began by scanning the existing water pump housing with a CT scanner. They selected a CT scanner because the pump contained many undercuts and other internal geometries that would have been impossible to capture with a laser scanner or other line-of-sight imaging tool.
To verify that the scan data was accurate before moving forward, the engineers imported the point cloud data generated by the CT scanner into Geomagic Control X inspection and metrology software where they separated and aligned the internal and external geometry of the pump.
“For a project like this, we typically separate out the internal volute geometry from the body so we can model it as a core and do a comparison back to the point cloud data to be sure all our work is accurate,” said Chris George, master CAD model team leader for advanced system design for Cummins.
With good scan geometry to jump-start its design work, Cummins used Geomagic Design X reverse engineering software to convert the point cloud to a nonparametric solid model to perform CAD fit checks. These checks helped the Cummins team determine the right assembly dimensions for the impeller and shaft and how everything would ultimately fit and seal together.
According to George, Cummins uses Geomagic Control X and Geomagic Design X as its primary software for point cloud manipulation. “The 3D Systems Geomagic software provides a complete solution for processing and inspecting scan data and converting it to a solid model,” he says. “We use them for every reverse engineering project we do, which often requires geometric reconciliations, finite element analyses of structure and flow, and model-to-scan comparisons reported to our engineering customers.”