3D Printed Longboard Illustrates the Best and Worst of 3D Printing

By on October 12th, 2016 in Design, Ideas

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 A working 3D printed longboard
A working 3D printed longboard

A 3D printing experiment demonstrates how both success and tragedy in the industry. 

Reddit contributor tallaustin posted images of his custom 3D printed longboard, shown at top. tall austin was an intern at Stratasys Research & Development (a place we visited a few weeks ago), where he was able to access the equipment necessary to 3D print the longboard. 

 An early failed design for the 3D printed longboard
An early failed design for the 3D printed longboard

It took a couple of attempts to complete this print, including an initial version printed in nylon (note large break on the left side above), which apparently wasn’t strong enough. The final version was 3D printed in Stratasys’ ULTEM 1010 material, known for strength and high heat resistance. Which machine was used? The Fortus 900mc, the largest plastic extrusion machine currently sold by Stratasys, although there’s bigger machines coming in the future. 

 Inside the 3D printed longboard
Inside the 3D printed longboard

The resulting longboard is more than sufficiently strong to support the rider, as ULTEM is a powerful material and the longboard was printed solid – 100% infill over a six-day period. It also is made from a custom designed and sized 3D model, so it’s ideal for the creator. 

That’s the good news from this project: custom, high quality longboard produced on demand. 

 Parts of the 3D printed longboard, specifically the wheels
Parts of the 3D printed longboard, specifically the wheels

But there’s a darker side, too. According to tallaustin, the cost of 3D printing this longboard, if charged by a service bureau, might have been USD$8,000. 

That’s an enormous amount for a single longboard. 

 Underside view of the 3D printed longboard
Underside view of the 3D printed longboard

Some point out that you could 3D print this on lesser equipment at a lower cost, but I’m skeptical. The ULTEM 1010 material requires a 400C hot end and a build chamber temperature of 220C, far above virtually all other 3D printers. You might be able to print the part on other machines, assuming you have the build volume, but I’m not sure you’d have the required strength. 

And this is the conundrum with 3D printing these days: you can do anything, but it’s expensive. 

Someday pricing will come down, but it may require the introduction of entirely new forms of 3D printing that are more efficient. 

Via Reddit

By Kerry Stevenson

Kerry Stevenson, aka "General Fabb" has written over 8,000 stories on 3D printing at Fabbaloo since he launched the venture in 2007, with an intention to promote and grow the incredible technology of 3D printing across the world. So far, it seems to be working!