In an industry where speed, accuracy, and cost-effectiveness are crucial, Yawman Flight  teamed up with MotoCilino Engineering Service  firm and Nexa3D to address the challenge of designing and developing a first-of-its-kind handheld controller for flight simulations. The Yawman Arrow is the fusion of a traditional handheld gaming controller and the unique flight controls found on aircraft of all sizes. Designed for precision and versatility, the Arrow brings together a traditional joystick, desktop throttle quadrant, and rudder pedals — and more — all into a handheld form factor.

The result is a breakthrough in both product innovation and manufacturing efficiency, with XiP Desktop 3D Printer  playing a pivotal role in achieving success.

Yawman Flight faced the challenge of creating a unique flight simulator controller under significant time and budget constraints. The primary objectives were to develop a first-of-its-kind handheld flight simulator controller and complete the project rapidly and cost effectively, without investing in costly injection molding tooling. Additionally, the team required high-quality surface finish and mechanical performance of all of the components so achieving injection molding-like quality quickly and affordably were critical to the success of the project.

Yawman Flight’s intended customer base is flight simulation enthusiasts and professionals in the aviation industry who demand high-quality, realistic flight simulation experiences. The flight simulation industry requires high-quality products that can meet strict specifications for part tolerances and mechanical performance in order to provide a truly realistic simulation experience.

“The XiP allowed us to create a final product that exhibits injection molded like qualities in terms of surface finish and performance, but without the costs and long lead times,” said Thomas Nield, Engineering Lead at Yawman Flight. “We would’ve been delayed by as much as a year had we used another manufacturing method during the prototyping phase.”

Yawman Flight collaborated with MotoCilino Engineering Service firm to develop a unique controller in record time, going through 17 different design iterations before validating the final assembly in just a few weeks. The final prototype controller consists of 36 different components, all of which were printed on the XiP desktop 3D printer  using xABS3843 high-performance resin.

The team at MotoCilino chose to print the components on the XiP due to printer’s reliability and high print quality using performance grade resin  that mimic mechanical properties of final production grade ABS. In fact, the finished controller visual aesthetic and mechanical performance was virtually indistinguishable from those components that were molded. “Printing on the XiP allowed us to deliver components to the Yawman team in half the time it would’ve taken us had we used another desktop SLA printer, and the print quality on the XiP is just superior,” said Paul Cilino, Owner of Motocilino.

The team was able to finalize the design and deliver a high-quality prototype with injection molding-like surface finish and mechanical performance quickly and cost effectively. The finished assembly included over 36 printed components, all virtually indistinguishable from its injection molded counterparts in both finish and mechanical performance.

This article is contributed by Nexa3D. For more information, visit .