Skip to navigation

Fiber-Reinforced 3D Printing Provides Military-Grade Toughness for Genasun

Fiber Reinforced 3D Printing Provides Military-grade Toughness for the Genasun-II CM

When the U.S. Marine Corps needed a way to guarantee the life of their most ubiquitous field battery, Genasun was ready to upgrade their fail-proof, solid-state MPPT solar charge controller into a field-ready portable charger for the Corps' workhorse BB-2590 Lithium Battery.

Rapid prototyping is a way of life at the Marine Corps Warfighting Laboratory (MCWL) at Quantico. Genasun were able to impress their customers with a quick turnaround with a shock-resistant enclosure design in 3D printed ABS. The only problem was that the enclosure design couldn't be field tested.

3D printed ABS electrical enclosures simply weren't rugged enough to stand up to in-theater testing. 3D printing was the right solution as it quickly allowed fast iteration and fit testing of the electrical components. The printed parts just needed to be stronger - Marine Corps Strong.

‍3D printed ABS GI-2590 solar charge controller

Nylon + Kevlar® = Strong Enough for the Corps

The same enclosure printed by the Mark One Composite 3D printer in Nylon with Kevlar® reinforcement was strong enough. The composite printer created a reinforced electrical enclosure with the toughness and impact resistance of nylon combined with the strength, stiffness, and light weight of continuous strand Kevlar®.

‍3D printed Kevlar reinforced Nylon GI-2590 solar charge controller
It's clear the parts printed with the Mark One Composite 3D Printer can be drop tested, field tested, or even thrown out of a helicopter. The Mark One's base Nylon 6 copolymer is a classic solution to impact resistance and snap fit applications, but now with Kevlar throughout, we can test it any way we like.”

Fiber reinforced parts printed on the Mark One can be field-ready right off the printer to house mission-critical equipment like the BB-2590, which powers field radios, night vision systems, and bomb disposal robots. Not only are the prototypes strong enough to survive testing but the materials are familiar enough to convince Marines who already know and trust Kevlar®.

How did Kevlar® Reinforced Nylon CFF compare?

MethodCostTime Service Bureau Nylon 6/6 (30% glass fill)$570.883-5 business daysService Bureau Nylon 6 $263.87 3-5 business daysReinforced 3D Printing Nylon 6/Kevlar® $49.3124 hour print time

Today Genasun is using the Mark One to create more rugged prototypes that both showcase the range of opportunities available, the speed of iterating with 3D printing and strength to withstand even the most rigorous testing.

The Kevlar® reinforced GI-2590 solar charge controller prototype also paved the way for other 3D printed composite prototypes.

All of the blogs and the information contained within those blogs are copyright by Markforged, Inc. and may not be copied, modified, or adopted in any way without our written permission. Our blogs may contain our service marks or trademarks, as well as of those our affiliates. Your use of our blogs does not constitute any right or license for you to use our service marks or trademarks without our prior permission. Markforged Information provided in our blogs should not be considered professional advice. We are under no obligation to update or revise blogs based on new information, subsequent events, or otherwise.


订阅以在您的收件箱中获取新的 Markforged 内容