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Bike manufacturer is sold on colour, multi-material 3D printing

05 July 2015

Engineers and designers at Trek Bicycle in Waterloo, Wisconsin are among the first to adopt the Objet500 Connex3, an advanced colour multi-material 3D printer that runs on PolyJet technology.

The team was able to translate finite-element analysis data into a 3D map of a bike seat showing the pressure a rider applies to each area

Think of your bike. How many materials does it contain? A rigid metal frame, firm rubber tyres, soft handlebar grips, a cushioned seat, clear and coloured lenses, plus a lot of engineering and testing go into a smooth, fast ride.

Engineers and designers at Trek Bicycle in Waterloo, Wisconsin, are obsessed with improving that ride. Their innovations have included a proprietary carbon-fibre manufacturing method that produces record-breaking lightweight frames, and an ultra-aerodynamic airfoil, the mere shape of which can provide not just extremely low drag, but even negative drag - thrust, in other words.

Trek engineers, designers and technicians have bikes on their minds and, most days, their bodies on bikes. Along with a great deal of road-inspired innovation and testing, a cutting-edge 3D printer helps them chase that perfect ride.

Trek’s prototyping lab was among the first to adopt the Objet500 Connex3, an advanced colour multi-material 3D printer that runs on PolyJet technology. It creates prototypes that look and feel like production parts, with more material options and more uptime than ever before. The system builds colour parts with clear, tinted and flexible components all in one job, for example.

Specifically, engineers at Trek embraced the capability to integrate soft rubber-like components into models built from their favourite prototyping material, durable Digital ABS. This is crucial because so many bike parts and accessories contain rigid and soft components. Before Connex3, the lab would have had to build those devices in separate jobs, swapping out 3D printing materials in between, and then bond the components. If they wanted to print in one job, it was necessary to downgrade the rigid portions to a less durable, non-composite material.

According to engineer, Guadalupe Ollarzabal, when a prototype leaves the lab, the designers or customers who handle it don’t necessarily remember it is 3D printed and that, depending on the material, might be fragile. That’s why the shop uses Digital ABS as much as possible.
“For the electronics guys, some of their prototypes are super small, with thin walls," he says. "We’ve got guys using them for light fixtures and USB holders. Now we can give them a functional work piece to test with Digital ABS and rubber in one part. I have an example on the floor that looks really close to a production piece.”

Accessories like handlebar grips and chain guards require the same realism for fit and function testing, including rough rides on Trek’s onsite trails.

“It’s important for our prototype parts to look and feel like production parts,” says Mike Zeigle, who manages Trek’s prototype development group. Except when it’s not: sometimes, the group is tasked with creating a communication tool - not to test a new product but to convey an idea in three dimensions. For example, an array of human pelvic bones atop model bike seats appeared recently at a trade show.

For these communication tools, colour 3D printing comes in handy. Ollarzabal’s team was able to translate finite-element analysis data into a 3D map of a bike seat showing the pressure a rider applies to each area.

“Most people think they just sit on the whole bike seat, but there’s more pressure on certain parts than others. This shows the pressure points so designers can make decisions, like where to put high-density foam, for example,” he says.

This obsession with details helps Trek continually improve cycling, and for Zeigle, Connex3 is the best tool for the job.


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