Step-by-Step Creating Custom Auto Parts

When Javelin’s Rob Greer needed to add a few little luxuries to his recently acquired 1969 Chevrolet Suburban pickup truck, he knew exactly how to go about it: 3D printing a custom automotive part.

The truck, initially nicknamed “The Burb,” required a few updates. Rob wanted to replace the two seats, which were not original, and add a center console with a coin tray and two phone chargers. The seats and console were acquired from a 2002 to 2006 Cadillac Escalade and with that, The Burb became the “Suburbillac.”

An obvious challenge when incorporating parts from other vehicle models is getting the parts to fit right, as seen below. The Escalade console was too tall for the Suburban and would obstruct the heating controls. Rob removed the top of the console and decided to 3D print a custom, flat piece to form the new top of the console.

Rob’s modified center console, made to fit The Burb without blocking the heat controls.

Ali Shahab, a student application engineer at Javelin formed a team of specialists who worked with Rob to create a custom solution. They share their story below, step by step.

3D Scanning Custom Automotive Parts for Reverse Engineering

Our first step was to scan the existing center console using the Artec Leo – a handheld, portable 3D scanner. With a built-in power source, computing capabilities and wi-fi connectivity, the Leo is cord-free and easy to handle.

Ali using the Artec Leo to scan the console and dashboard.

Since the part to be modeled had to integrate with the center console and the dashboard, we needed to scan some hard-to-reach areas. The wireless Leo with its large field of view made it easy to move the scanner into tricky spots.

The optimal scanning range is clearly displayed: blue objects indicate the part is too far away, red objects indicate the part is too close, and green objects indicate the part is within the optimal range.

Artec Leo 3D scanning monitor.

Leo is one of the fastest professional handheld 3D scanners on the market. It has a large field of view while allowing you to capture intricate detail. Additionally, the auto-alignment feature and fine serial registration reduce post-processing in later steps.

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Design for Additive Manufacturing

When the scan was complete, we transferred the data to Artec Studio software for post-processing. This includes removing any unnecessary data. Since Artec Leo allowed us to do some background processing, we didn’t spend much time on this step.

Artec studio post-processing.

We exported the scanned data directly to Geomagic Design X software to start designing the part to fit the center console.

Exported data in DesignX.

By leveraging some advanced features in Design X software, we were able to use the scanned data as a reference to create a console that will connect perfectly to the Suburbillac.

Extrude Command

The end design needs to fit the bottom of the dashboard correctly to prevent movement. This would have been difficult to achieve without leveraging 3D scan and reverse engineering technologies. By using Mesh sketch, Auto sketch and other advanced features we were able to create a complex surface model. Once this is complete, we were able to convert the surface extrude to the solid body surface knit commands.

Surface extrude in DesignX

Next, we created recessed features for the wireless charging pads and coin tray using the extrude feature and highlighting the cut option.

Wireless charging pads

When the model is satisfactory, it can be shelled from the bottom and back faces approximately 2 mm.

DesignX shelled from bottom and back faces.

The final model can be seen below:

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3D Printing for Prototyping and End-Use Parts

3D printing is quick and convenient and allows for maximum flexibility and creativity. Making prototypes, in just hours, allows you to easily test the part’s performance and fit. If changes are needed, you can tweak the design and move quickly to the finished part. We used the Stratasys Fortus 450mc printer and black ABS material. We printed a few test models to see if the model would fit in the vehicle as it should; for example, we tested the charging pad cut-out to see if all measurements and tolerances were met.

It was also important to test the fixture that connects the model to the center console by printing only the bottom half of the model, again to check tolerances. We printed upside down to reduce the amount of support required, and soluble support structures made it easy to remove the support material post-print. This model took about 14 hours to print. Because we tested critical elements beforehand, we didn’t need to make any further changes.

Below, the final part is shown in the vehicle. Further finishing steps could include sanding and painting. The last step will be to securely position the part using glue or double-sided tape.

In conclusion, we were able to complete a complex retrofit by leveraging not only the Artec Leo 3D scanner but Geomagic DesignX software and 3D printing. By doing this, we were able to reduce design time, print material waste and production time for this project.

Looking to expand your engineering capabilities to 3D scanning or need a little help capturing the full value of your scanned data? Check out our webinar “3D Scan to CAD Model: The Full Process of Reverse Engineering” to learn how.