On this weekend’s 3D Printing Information Briefs, we’ve obtained extra information from Dyndrite, which has launched the NXG Slice Viewer for Nikon SLM Options. Farsoon Europe has information to share about two of its printers, and Austal USA is working to extend submarine industrial base capabilities beneath the AUKUS partnership. An structure scholar tried making a completely 3D printed working shoe.
Dyndrite Launches NXG Slice Viewer for Nikon SLM Options
Function constructed and hardened by nxg energy customers, the Dyndrite NXG slice viewer offers engineers the instruments wanted for growing smarter optic allocation methods for prime throughput.
Industrial AM software program supplier Dyndrite lately introduced that it’s enhanced Dyndrite LPBF Professional with an NXG Slice Viewer, purpose-built for Nikon SLM Options‘ NXG Collection of large-format, multi-optic, metallic AM programs. The absolutely time-simulated, 12-laser toolpath visualization and debug setting was developed for Nikon SLM’s open structure, and additional optimized because of suggestions from prospects like an aerospace firm. The LPBF Professional NXG Slice Viewer gives an entire window into multi-laser habits throughout printing, that includes instruments to shortly analyze and debug customized optic allocation methods, enhanced UI controls, real-time visualization of all 12 lasers without delay, and extra. Current LPBF Professional NXG prospects can entry this new characteristic instantly, and the NXG Slice Viewer can also be out there as a part of the newest Dyndrite LPBF Professional launch.
“At Nikon SLM Options, we consider that an open structure is the important thing to accelerating innovation in additive manufacturing. Dyndrite’s new NXG Slice Viewer is an ideal instance of that philosophy in motion,” said Brent Stucker, Chief Engineer at Nikon SLM Options. “By leveraging the openness of our NXG Collection, Dyndrite has delivered a strong visualization device that offers prospects deep perception and management over their multi-laser manufacturing processes. We’re proud to see companions like Dyndrite utilizing our open structure to boost the NXG ecosystem and assist our shared prospects obtain larger printing confidence.”
Farsoon Europe: NMB Installs Flight HT601P-4, Saturne Acquires FS811M-U
Set up view of the Flight® HT601P-4 system at NMB. Picture courtesy of NMB & Farsoon.
Farsoon Applied sciences subsidiary Farsoon Europe GmbH has information to share about two of its printers. First, analysis institute Neue Materialien Bayreuth GmbH (NMB), which makes a speciality of novel supplies and course of innovation, has efficiently put in and commissioned the Flight HT601P-4 polymer AM system at its Bayreuth, Germany facility. The 2 have been working collectively for a number of years to develop and optimize a full polymer AM workflow for sequence manufacturing, and have made progress in system integration, materials qualification, and course of automation. Now, the put in Flight HT601P-4, with its giant 600 x 600 x 600 mm construct quantity, sensible powder administration, high-temperature processing, and digital course of management, will act because the cornerstone for the following part of sequence manufacturing validation.
Moreover, precision manufacturing firm Saturne Know-how, primarily based in Luxembourg, has acquired the Farsoon FS811M-U metallic AM system, which is a serious step in direction of enabling industrial-scale manufacturing and validation of large-scale, high-value aerospace elements in Europe. Collectively, Saturne and Farsoon Europe will work to set a benchmark for next-gen aerospace manufacturing and pace up the transfer of metallic AM from prototyping to aerospace-grade manufacturing and program validation. That includes 10 × 1.000 W fiber lasers with beam shaping, superior multi-laser scanning methods, optimized gas-flow administration, and an extra-tall 1.7 m Z-axis and 840 × 840 mm platform, the FS811M-U would be the centerpiece of Saturne’s new large-format metallic AM manufacturing cell, and be built-in with in-house machining, warmth remedy, and high quality management infrastructure.
Austal USA Enters MoU with Australian Submarine Company
L-R: Austal USA Director of Superior Applied sciences Scott Kasen; Austal USA Vice President Enterprise Improvement & Exterior Affairs Lawrence Ryder (with pen); ASC Supervisor – Science and Know-how Matthew Yuen; ASC Chief Functionality Officer Danielle Bull (with pen); ASC Normal Supervisor – Provide Chain Technique & Oversight Marius Pretorius; Austal Australia Chief Know-how Officer Dr. Glenn Callow (with pen); and Austal Australia Head of Analysis & Improvement Sam Abbott.
At INDOPAC 2025 in Sydney, Australia, ship producer Austal USA entered a Memorandum of Understanding (MoU) with Australian Submarine Company (ASC) to extend Submarine Industrial Base (SIB) capabilities beneath AUKUS, the trilateral safety partnership between Australia, the UK, and america. The settlement is to advance the introduction of 3D printing in Australian shipbuilding and submarine sustainment, thus shoring up the provision chain to help Virginia-class and Australian Collins-class submarine applications. Austal USA, which makes use of LPBF, WAAM, and wire-laser AM processes, is a perfect accomplice for this settlement: it operates the U.S. Navy’s AM Heart of Excellence in Danville, Virginia, and led the cost in growing a nationwide community of distributors with certified AM processes and machines to manufacture crucial submarine components. Moreover, the agency is continuous to develop its workforce and services to help rising SIB calls for. This MoU is simply the newest instance of how massive a task Austal USA performs in integrating AM into maritime and submarine wants in each the U.S. and Australia.
“Austal USA is pleased with the position we’re taking part in within the worldwide effort to fortify the submarine industrial base by means of improvements in additive manufacturing capabilities. We acknowledge the significance of AUKUS and are excited to be on the forefront of this monumental collaboration of Allies partnering to defend our freedom with an impenetrable fleet of floor and subsurface naval property,” mentioned Austal USA President Michelle Kruger.
Structure Scholar Collaborates to Make a Absolutely 3D Printed Operating Shoe
Until Steinforth, a Grasp of Structure scholar, and Kylin Flothe, an assistant professor of apply Division of Textiles, Merchandising and Trend Design, who labored collectively to create a completely 3D printed working shoe. Photograph by Loren Rye.
Until Steinforth, a Grasp of Structure scholar at College of Nebraska-Lincoln, can also be a decathlete for the monitor and area staff with an curiosity in style. After he noticed a pair of Zellerfeld’s 3D printed sneakers, Steinforth, who was additionally within the Division of Textiles, Merchandising and Trend Design (TMFD) 123 Clothes and Society, wished to attempt making a completely 3D printed working shoe. Kylin Flothe, an assistant professor of apply within the textiles division and his earlier teacher, turned his college mentor for this undertaking, advising on a few of the design aesthetics and serving to with analysis into footwear for athletes. They’d a number of failed prints earlier than attaining a usable prototype, which Steinforth efficiently examined out himself. He got here away from that run with concepts on the way to enhance the Ripple Runner shoe. It took about 24 hours to print the only real, higher, and carbon plate. The higher, with an built-in insole, was glued to the only real, and the detachable carbon plate provides elevated stability when inserted, and elevated cushioning when eliminated.
“I believe 3D printing may have an enormous half in the way forward for footwear as a result of normally working or informal sneakers are about 20-50 items getting assembled. Meeting is just about optimized so it most likely takes much less time than I might spend with my 3D printer, however you want heavy equipment and there’s a lot of waste once they stencil out the shapes of the sneakers,” Steinforth defined. “With this, you print the fabric and there’s no materials waste actually, aside from some help construction. You would even try this half with sustainable or water-soluble plastic should you actually wished to, so there’s actually no waste in producing this shoe.”
Steinforth and Flothe submitted the 3D printed Ripple Runner for the World Footwear Awards; the winners will probably be introduced in early 2026.
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