Pekk 3d printer9/2/2023 ![]() ![]() While the NTNU engineers have conceded that their build requires a high level of “familiarity with 3D printers, soldering, wood, and metalworking,” they maintain that with sufficient knowhow it can be applied to “most commercially-available printers,” in a way that could “enable further research into, and the improvement of, high-performance materials.” Likewise, compared to similar specimens made on a Prusa i3 MK3S system, the team’s modified machine yielded parts with 22% higher tensile strength, showcasing the benefits of its humidity-controlling capabilities. Resulting parts, including a carbon fiber-reinforced PEEK-3D printed benchy and complex vase, also possessed an excellent level of detail and consistent quality from top-to-bottom, a key indicator of uniform build chamber temperature. Once the team had completed their prototype, they attached it to a Creality CR-10 Plus, by disassembling the 3D printer down to its frame, before reassembling it inside the chamber and connecting it up, and during summary testing, they found they were able to use an integrated controller to modulate the set-up’s liquid-cooling functionality as needed.Īlthough these tests did reveal unit heating loss along its top gaskets and viewing window, it did prove able to run consistently at 135☌, with a nozzle temperature of 400☌. Eventually, the device was also equipped with reservoirs and radiators designed to create ‘liquid-cooling loops,’ that prevent its stepper motors and hotend from overheating during operation. To power their novel build chamber, the team fitted it with a 2.5 kW 500 mm x 500 mm silicone heater, which was mounted to an aluminum plate, capable of dissipating heat generated throughout production. During the construction of their system, the team fitted it with steel plating, insulation mats, and a heat-resistant glass plate for build viewing, before sealing it with aluminum tape and gaskets to ensure its safe operation. In essence, the researchers’ desktop 3D printer upgrade has been built around two IKEA METHOD cabinets, which, once connected, feature a joint 800 x 1200 x 800mm build volume. ![]() In fact, they say that their system’s build chamber can even run at higher temperatures than commercial $50,000 systems like the AON M2, meaning that it could “contribute to the progress of distributed manufacturing.” A heat map of the team’s liquid-cooled FFF 3D printer during operation. To overcome this, the team has taken advantage of the expiry of Stratasys’ build chamber patent in 2021, and come up with a novel approach to making high-temp FFF production more accessible. As a result, until last year, its competitors had been forced to find new ways of keeping their printers’ motion control parts and build chambers separated.Īccording to the NTNU researchers, many such FFF systems “can now meet the strength and temperature resistance required for industrial applications,” but the lack of accessibility around machines with high-temperature printing capabilities has led to “limited research opportunities,” particularly when it comes to material qualification. However, even though Stratasys’ wider extrusion technology was later built upon in the form of fused filament fabrication (FFF), the heated build chamber designs of its systems remained protected under a separate patent filed in 2000. ![]() Adrian Bowyer’s work at the University of Bath.Īt the time, this expiry also spurred on a whole community of devs, which went on to found start-ups that have become household names, like MakerBot, Ultimaker, and Prusa, and the technology continues to be the most-used in the industry. Then, in 2009, two decades after the patent was initially filed, it expired, leading to a consumer 3D printing boom, led largely by the RepRap Project and Dr. Photo via NTNU.īack in 1989, Stratasys Co-founder Scott Crump filed a patent application for what he called fused deposition modeling, a process he integrated into the firm’s first ‘FDM’ machine: the 3D Modeler. ![]() Norwegian University of Science and Technology (NTNU) researchers have developed a low-cost, open-source desktop 3D printing upgrade that could provide users with an accessible new way of processing high-temperature polymers.ĭesigned as an add-on for existing FFF machines, the team’s mod, consisting of a Creality CR-10 Plus system fitted with a liquid-cooled drive extruder and stepper motors, is housed inside a home-made chamber that’s able to maintain a build temperature of 135☌, allowing it to deposit reinforced materials with fewer defects.Īccording to the engineers, their setup can be assembled for “less than $1,700,” including the system, and added to any desktop unit to make it “capable of printing high-performance materials.” The NTNU researchers’ $1,700 high-temperature FFF 3D printing upgraded fitted to a Creality 3D printer. ![]()
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