DJI Osmo Action 4. Adrian Kingsley-Hughes/ZDNETMultiple DJI Osmo Action 4 packages are on sale at Amazon. Both the Essential and Standard Combos have been discounted to $249, while the Adventure Combo has dropped to $349.DJI might not be the first name on people's lips when it comes to action cameras, but the company that's better known for its drones also has a really solid line of action cameras. And its latest device, the Osmo Action 4 camera, has some very impressive tricks up its sleeve.Also: One of the most versatile cameras I've used is not from Sony or Canon and it's on saleSo, what sets this action camera apart from the competition? Let's take a look. details View at Amazon First off, this is not just an action camera -- it's a pro-grade action camera.From a hardware point of view, the Osmo Action 4 features a 1/1.3-inch image sensor that can record 4K at up to 120 frames per second (fps). This sensor is combined with a wide-angle f/2.8 aperture lens that provides an ultra-wide field of view of up to 155°. And that's wide. Build quality and fit and finish are second to none. Adrian Kingsley-Hughes/ZDNETFor when the going gets rough, the Osmo Action 4 offers 360° HorizonSteady stabilization modes, including RockSteady 3.0/3.0+ for first-person video footage and HorizonBalancing/HorizonSteady modes for horizontal shots. That's pro-grade hardware right there.Also: This new AI video editor is an all-in-one production service for filmmakers - how to try itThe Osmo Action 4 also features a 10-bit D-Log M color mode. This mode allows the sensor to record over one billion colors and offers a wider dynamic range, giving you a video that is more vivid and that offers greater detail in the highlights and shadows. This mode, combined with an advanced color temperature sensor, means that the colors have a true-to-life feel regardless of whether you're shooting outdoors, indoors, or even underwater. The DJI Osmo Action 4 ready for action. Adrian Kingsley-Hughes/ZDNETI've added some video output from the Osmo Action 4 below. There are examples in both 1080p and 4K. To test the stabilization, I attached the camera to the truck and took it on some roads, some of which are pretty rough. The Osmo Action 4 had no problem with that terrain. I also popped the camera into the sea, just because. And again, no problem.I've also captured a few time-lapses with the camera -- not because I like clouds (well, actually, I do like clouds), but pointing a camera at a sky can be a good test of how it handles changing light. Also: I recommend this action camera to beginners and professional creators. Here's whyTimelapses with action cameras can suffer from unsightly exposure changes that cause the image to pulse, a condition known as exposure pumping. This issue can also cause the white balance to change noticeably in a video, but the Osmo Action 4 handled this test well.All the footage I've shot is what I've come to expect from a DJI camera, whether it's from an action camera or drone -- crisp, clear, vivid, and also nice and stable.The Osmo Action 4 is packed with various electronic image-stabilization (EIS) tech to ensure that your footage is smooth and on the horizon. It's worth noting the limitations of EIS -- it's not supported in slow-motion and timelapse modes, and the HorizonSteady and HorizonBalancing features are only available for video recorded at 1080p (16:9) or 2.7K (16:9) with a frame rate of 60fps or below. On the durability front, I've no concerns. I've subjected the Osmo Action 4 to a hard few days of testing, and it's not let me down or complained once. It takes impacts like a champ, and being underwater or in dirt and sand is no problem at all. Also: I'm a full-time Canon photographer, but this Nikon camera made me wonder if I'm missing outYou might think that this heavy-duty testing would be hard on the camera's tiny batteries, but you'd be wrong. Remember I said the Osmo Action 4 offered hours of battery life? Well, I wasn't kidding.  The Osmo Action 4's ultra-long life batteries are incredible.  Adrian Kingsley-Hughes/ZDNETDJI says that a single battery can deliver up to 160 minutes of 1080p/24fps video recording (at room temperature, with RockSteady on, Wi-Fi off, and screen off). That's over two and a half hours of recording time. In the real world, I was blown away by how much a single battery can deliver. I shot video and timelapse, messed around with a load of camera settings, and then transferred that footage to my iPhone, and still had 16% battery left.No action camera has delivered so much for me on one battery. The two extra batteries and the multifunction case that come as part of the Adventure Combo are worth the extra $100. Adrian Kingsley-Hughes/ZDNETAnd when you're ready to recharge, a 30W USB-C charger can take a battery from zero to 80% in 18 minutes. That's also impressive.What's more, the batteries are resistant to cold, offering up to 150 minutes of 1080p/24fps recording in temperatures as low as -20°C (-4°F). This resistance also blows the competition away.Even taking into account all these strong points, the Osmo Action 4 offers even more.The camera has 2x digital zoom for better composition, Voice Prompts that let you know what the camera is doing without looking, and Voice Control that lets you operate the device without touching the screen or using the app. The Osmo Action 4 also digitally hides the selfie stick from a variety of different shots, and you can even connect the DJI Mic to the camera via the USB-C port for better audio capture.Also: Yes, an Android tablet finally made me reconsider my iPad Pro loyaltyAs for price, the Osmo Action 4 Standard Combo bundle comes in at $399, while the Osmo Action 4 Adventure Combo, which comes with two extra Osmo Action Extreme batteries, an additional mini Osmo Action quick-release adapter mount, a battery case that acts as a power bank, and a 1.5-meter selfie stick, is $499.I'm in love with the Osmo Action 4. It's hands down the best, most versatile, most powerful action camera on the market today, offering pro-grade features at a price that definitely isn't pro-grade.  Everything included in the Action Combo bundle. DJIDJI Osmo Action 4 tech specsDimensions: 70.5×44.2×32.8mmWeight: 145gWaterproof: 18m, up to 60m with the optional waterproof case Microphones: 3Sensor 1/1.3-inch CMOSLens: FOV 155°, aperture f/2.8, focus distance 0.4m to ∞Max Photo Resolution: 3648×2736Max Video Resolution: 4K (4:3): 3840×2880@24/25/30/48/50/60fps and 4K (16:9): 3840×2160@24/25/30/48/50/60/100/120fpsISO Range: 100-12800Front Screen: 1.4-inch, 323ppi, 320×320Rear Screen: 2.25-inch, 326ppi, 360×640Front/Rear Screen Brightness: 750±50 cd/m² Storage: microSD (up to 512GB)Battery: 1770mAh, lab tested to offer up to 160 minutes of runtime (tested at room temperature - 25°C/77°F - and 1080p/24fps, with RockSteady on, Wi-Fi off, and screen off)Operating Temperature: -20° to 45° C (-4° to 113° F)This article was originally published in August of 2023 and updated in March 2025.Featured reviews

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In this edition of SLICED, the 3D Printing Industry news digest, we compile the latest developments across the additive manufacturing (AM) sector, including equipment-sharing partnerships, market expansions in Europe and Mexico, and new standards working groups. Today’s edition features reseller appointments, research consortium launches, large-format platform integrations, dental appliance automation, and calls for conference speakers. Read on for updates from AM 4 AM, Meltio, One Click Metal, Axtra3D, Nikon SLM Solutions, Formnext 2025, and more. Emerging partnerships from AM 4 AM, and Meltio Kicking off with partnerships, Luxembourg’s materials R&D firm AM 4 AM has partnered with Stockholm aluminum powder supplier Gränges Powder Metallurgy (GPM), relocating the Swedish supplier’s materials characterization park to AM 4 AM’s facility. Under the agreement, AM 4 AM will operate GPM’s particle size analyzers, thermal testers, and mechanical-testing rigs to accelerate development cycles and strengthen quality control across both companies’ product lines. AM 4 AM Co-founder Maxime Delmée noted that access to GPM’s instrumentation will enable faster iteration and more data-driven decision-making. Highlighting benefits, GPM Managing Director Peter Vikner explained that relocating the equipment to AM 4 AM addressed both firms’ R&D requirements while leveraging AM 4 AM’s operational capabilities. Moving on, Spanish wire-laser metal 3D printer manufacturer Meltio has announced partnerships with Monterrey-based service provider Alar, and academic institution  Tecnológico de Monterrey.With this move, Alar will integrate the award-winning M600 industrial wire-laser 3D printer into its production lines, while the institution has acquired a Meltio M450 for academic training and industry collaboration.  Additionally, the Spanish manufacturer has also announced additive manufacturing integrator Sitres Latam as its official distributor. Meltio’s wire-feed deposition process, which supports stainless steel, titanium, Inconel, and copper, offers mechanical properties on par with conventionally manufactured parts while reducing waste and emissions. “This alliance with Sitres, Alar, and Tecnológico de Monterrey is fundamental to promoting real and functional metal 3D printing solutions in Mexico,” said Alar CEO Andrea Alarcón. Meltio partners with Alar, SITRES, and Tecnológico de Monterrey to expand metal 3D printing capabilities in Mexico. Photo via Meltio. One Click Metal and Axtra3D Appoint New Resellers in Iberia Turning to resellers and distribution, German metal 3D printing systems developer One Click Metal has expanded into Portugal through a collaboration with Lisbon’s industrial additive manufacturing services provider 3D Ever. The agreement gives local businesses direct access to One Click Metal’s cartridge-based powder handling systems and Lab Module for rapid material changes, alongside region-specific training and post-installation support. Founded in 2017, 3D Ever operates a multi-technology showroom—covering covering stereolithography (SLA), selective laser sintering (SLS), fused filament fabrication (FFF), and direct metal laser sintering (DMLS)—and hosts open-house events and technical workshops to integrate 3D printing into customer workflows. “Portugal is a dynamic market for additive manufacturing,” said One Click Metal’s Global Sales Director Martin Heller, “and 3D Ever’s deep industry knowledge makes them the ideal partner.” Meanwhile, Milan-based photopolymer 3D printer innovator Axtra3D has named Spain and Portugal’s Maquinser S.A. as its professional reseller for Hi-Speed SLA systems. Maquinser will showcase the Lumia X1 platform combining Hybrid PhotoSynthesis and TruLayer technologies at three major industry events through June: the International Machine-Tool Fair (EMAF) in Porto, Portugal; the Subcontratación Industrial & Addit3D expo in Bilbao, Spain; and the MindTECH manufacturing technology fair in Porto. “Axtra3D’s Hi-Speed SLA strikes the balance between surface quality, precision, and material flexibility,” said Maquinser CEO Christian Postigo. Andreas Tulaj, SVP Europe Sales at Axtra3D, added that Maquinser’s regional presence ensures localized support, rapid deployment, and customer-specific solutions across automotive, aerospace, energy, and mold-making sectors. Axtra3D appoints Maquinser S.A. as official reseller for Spain and Portugal. Image via Maquinser. 3MF Consortium and Ecosistema GO! Launch AM Research Initiatives On the research corner, the Microsoft-backed standards organization 3MF Consortium has formed a 6-Axis Toolpath Working Group to define open data structures for robotic and multi-axis AM workflows. The effort invites professionals using industrial robots and advanced CNC platforms to develop a 3MF extension that encodes non-planar toolpath data, enabling seamless interoperability across design, toolpath generation, and machine control software. Originally created to surpass STL and OBJ for complex manufacturing data, the 3MF format already supports units, materials, lattices, slice data, and metadata. This new working group will build on modules like the Beam Lattice Extension to integrate multi-axis motion paths, with open-source reference implementations available via the consortium’s GitHub repository. Elsewhere in Europe, Spain’s Centre for the Development of Industrial Technology (CDTI)-backed Ecosistema GO! Project (coordinated by Leitat with partners Aitiip, Idonial, Aimen, Addimat, HP, and Meltio) has launched to map national AM capabilities and drive industrial adoption. The initiative will publish a structured “map of capabilities” covering infrastructure, specialization areas, and R&D projects, while hosting workshops in automotive, energy, and aerospace to share success stories and define adoption strategies. “Ecosistema GO! aligns capabilities, generates synergies, and accelerates AM’s real incorporation into Spanish industry,” said IAM3DHUB General Secretary David Adrover. Open for new members through December 2025, the consortium aims to serve as Spain’s reference network for additive manufacturing. The 3MF Consortium invites participants to join its newly launched 6-Axis Toolpath Working Group. Image via 3MF Consortium. Dental Production Boosted by DMP Flex 200 Integration at DynaFlex In dental applications, U.S. orthodontic manufacturer DynaFlex has upgraded its digital workflow with the DMP Flex 200 metal 3D printer from 3D Systems, supplied and installed by their official supplier Nota3D. Featuring a 500 W laser and enlarged build platform, the system has increased DynaFlex’s production speeds by up to 80% for small custom components such as fixed appliances and bands. Matt Malabey, DynaFlex’s Director of Operations, noted that integrated software for orientation, nesting, and support generation further streamlines workflow: “Automation tools and improved onboarding allow us to scale smarter and faster.” The Flex 200 supports LaserForm CoCr, Stainless Steel 316 L, and Ti Gr23 alloys, aligning material properties with clinical performance standards. Prusa Research Opens EasyPrint to All Mobile Users Shifting to software, Czech desktop 3D printer maker Prusa Research has launched EasyPrint, a cloud-powered slicer embedded in the official PRUSA mobile app and accessible via Printables.com. It lets users prepare and send G-code directly from smartphones and tablets, automatically detecting compatible printers and applying the correct print profiles. An interactive 3D preview allows models to be moved, rotated, scaled and batch-arranged on virtual beds, while basic settings such as copy count and object size are consolidated into a one-click workflow. EasyPrint began as an invite-only beta used to collect performance metrics and optimize scalability before opening to everyone once preliminary tests proved the service smooth, according to Ondřej Drebota, Prusa’s Head of Country Development Managers & Partnerships Manager. All G-code generation runs in the cloud, enabling even low-powered devices to handle complex workflows, and users can download prepared files for offline printing. Prusa plans to extend EasyPrint compatibility to non-Prusa printers in future updates, broadening its reach across the 3D printing community. Nikon SLM Solutions and DynaFlex Upgrade Metal AM Workflow On 3D platform news, German metal 3D printer manufacturer Nikon SLM Solutions has integrated Freiburg’s automated depowdering specialist Solukon’s SFM-AT1500-S system at its Long Beach, California AM Technology Center. Paired to German manufacturer’s NXG 600E large-format 3D printer, the SPR-Pathfinder-driven unit handles parts up to 1,500 mm tall and 2,100 kg total weight, automating powder removal for industrial-scale metal components. Nikon SLM Solutions’ COO Gerhard Bierleutgeb stressed the importance of closely linking printing and automated depowdering for optimal production flow. Solukon’s CTO Andreas Hartmann added that the SFM-AT1500-S was custom-engineered to meet Nikon’s requirements for high-mass, complex geometries while maintaining a compact installation footprint. Andreas Hartmann, CEO/CTO of Solukon, and Joshua Forster, Production Manager at Nikon SLM Solutions. Photo via Solukon. Formnext 2025 Announces Call for Speakers Looking ahead to events, Germany’s trade-fair organizer Mesago Messe Frankfurt GmbH has opened its call for speakers for the upcoming Formnext 2025, to be held November 18-21 in Frankfurt. Submissions for the Industry Stage (covering sustainability, AI, standards, and talent) and the Application Stage (focusing on sectors like automotive, aerospace, and medical) remain open through June. Mesago’s Vice President Christoph Stüker explained that the multistage program is central to Formnext’s mission of disseminating AM knowledge and driving new applications. Additionally, Vice President Sascha F. Wenzler noted that the speaking slots offer an ideal platform for experts to share insights, build their profiles, and forge valuable industry connections. Adding to that, materials supplier participation at Formnext Asia Shenzhen 2025 has jumped 68% year-on-year, with booth bookings already at 70% capacity for the 26–28 August event at Shenzhen World Exhibition & Convention Center. The expanded materials segment, now covering advanced polymers, composites and specialised alloys, will feature over 30 exhibitors in metal powders (including Acc Material, JSJW New Material and Tiangong Technology), ceramics (Wuhan 3DCERAM, Nanoe France) and polymers (eSUN, SUNLU).  Louis Leung, Deputy General Manager of Guangzhou Guangya Messe Frankfurt, highlighted China’s rapid ascent as an AM leader, noting that national policy support and investment have fuelled double-digit growth in the domestic materials sector. Fringe activities include the 3D Print Farm Conference on filament supply chains and an expanded Laser & AM Forum, while related events, Formnext Asia Forum Tokyo (25-6 September) and Formnext Frankfurt round out the global network. Exhibitor registrations remain open online. A panel discussion recorded live at the Industry Stage during Formnext 2024. Photo via Formnext/Mesago Messe Frankfurt GmbH. Take the 3DPI Reader Survey — shape the future of AM reporting in under 5 minutes. Ready to discover who won the 20243D Printing Industry Awards? Subscribe to the 3D Printing Industry newsletter to stay updated with the latest news and insights. Featured image shows a panel discussion recorded live at the Industry Stage during Formnext 2024. Photo via Formnext/Mesago Messe Frankfurt GmbH. Anyer Tenorio Lara Anyer Tenorio Lara is an emerging tech journalist passionate about uncovering the latest advances in technology and innovation. With a sharp eye for detail and a talent for storytelling, Anyer has quickly made a name for himself in the tech community. Anyer's articles aim to make complex subjects accessible and engaging for a broad audience. In addition to his writing, Anyer enjoys participating in industry events and discussions, eager to learn and share knowledge in the dynamic world of technology.

Researchers at the German Aerospace Center (DLR) have developed MiniFix, a fully 3D printed syringe-based biological fixation system engineered for spaceflight. Successfully deployed in five MAPHEUS sounding rocket missions, MiniFix represents a breakthrough in experimental payload design, combining rapid prototyping, modularity, and robust performance in microgravity environments, combining rapid prototyping with modular, lightweight, and reliable performance under the extreme conditions of microgravity research. A 3D printing milestone for space life science Unlike conventional biological fixation systems, MiniFix is entirely produced via Fused Deposition Modeling (FDM). Key components, including the syringe holders, baseplate, and housing, were fabricated using desktop 3D printers, notably a Prusa MK3+, with 0.4 mm nozzles and a 0.3 mm layer height. This approach enabled fast, low-cost iteration and customization of parts to suit different missions and experimental needs. The system has undergone structural revisions using three different filaments; PLA (Polylactic Acid), used in initial missions (MAPHEUS-09 and -12), PETG (Polyethylene Terephthalate Glycol), chosen for enhanced mechanical durability (MAPHEUS-14), and GreenTEC Pro, a compostable bioplastic with high thermal resistance, used in MAPHEUS-15. This made MiniFix the first biologically compostable experiment structure to fly aboard a rocket. Sectional, translucent view through the MiniFix fixation system. Image via Sebastian Feles / DLR. Modular design for rapid adaptation MiniFix features a dual-syringe configuration, where a fixative and a biological sample are housed in vertically stacked syringes. Syringe actuation is handled by NEMA11 stepper motors coupled with linear actuators, allowing precise fluid dispensing. The hardware is modular and sterilizable, enabling pre-assembled syringe units to be installed under sterile conditions. Its all-3D printed chassis ensures that custom features, like integrated lighting for plant experiments, can be introduced quickly without redesigning the core system. This makes MiniFix suitable for various biological models, from unicellular organisms to organoids. Variants of the SBBFS Configuration. Image via Sebastian Feles / DLR. Built-in thermal regulation via waste heat A standout innovation is MiniFix’s passive thermal management system, which uses the heat generated by its stepper motors to maintain stable internal temperatures. With no need for separate heating elements, this system simplifies design, reduces power draw, and lowers overall payload mass, critical factors for sounding rocket missions with strict weight and energy budgets. Test data from MAPHEUS-15 showed that MiniFix maintained an internal temperature of 21.98 °C ±0.12 °C, consuming just 4.6 Wh during operation, even under ambient conditions as low as 4 °C. Space-tested reliability The reliability of this 3D printed structure was put to the test across multiple missions. MiniFix successfully endured extreme conditions, including launch vibrations exceeding 20 g and temperature swings from hypergravity to microgravity and re-entry. Across four missions, its components have shown no degradation or material failure, with post-flight inspections confirming the integrity of all printed parts and mechanical systems. Future applications Beyond fixation, MiniFix could evolve into a general-purpose liquid handling system for space. Its syringe mechanism is already capable of performing programmable mixing and the platform could be adapted for reagent delivery, drug testing, or even microfluidics in space-based manufacturing. Additionally, it exemplifies how additive manufacturing can accelerate experimental development cycles while maintaining reliability in harsh environments. Its open-source microcontroller and modular design ethos further position it as a template for future experimental hardware in life sciences and beyond.3D printing gains traction in space hardware development Additive manufacturing is rapidly transforming the development of spaceflight hardware, from on‑orbit part fabrication to ground-based launch systems. Just this year, ESA’s Metal3D printer aboard the ISS produced the first metal 3D‑printed part in microgravity, now safely back on Earth for analysis. Meanwhile, Nikon and JAXA are collaborating to refine large-scale metal 3D printing for space components, advancing materials and process control to shorten lead times and reduce launch costs. Within this context, DLR’s MiniFix system exemplifies a new wave of highly adaptable, mission‑specific payloads, completely fabricated using desktop FDM printers and bioplastics, optimized for the rigors of sounding rocket flight and microgravity research. The full research paper, titled “Pioneering the Future of Experimental Space Hardware,” is available in Microgravity Science and Technology via Springer Nature. Subscribe to the 3D Printing Industry newsletter to keep up with the latest 3D printing news.You can also follow us onLinkedIn and subscribe to the 3D Printing Industry YouTube channel to access more exclusive content. At 3DPI, our mission is to deliver high-quality journalism, technical insight, and industry intelligence to professionals across the AM ecosystem.Help us shape the future of 3D printing industry news with our2025 reader survey. Featured image shows sectional, translucent view through the MiniFix fixation system. Image via Sebastian Feles / DLR.

UK-based engineering equipment supplier Kingsbury and metal additive manufacturing company Additure have been appointed by the UK Atomic Energy Authority (UKAEA) to supply additive manufacturing technology and expertise as part of the UK’s ongoing efforts to advance fusion energy research. The partnership will support the development of components designed to endure the extreme conditions within fusion reactors, with a focus on innovative materials and design approaches. A key area of focus involves the use of tungsten—layered with materials such as copper—to achieve the necessary durability. To support this work, Kingsbury and Additure will deliver and install a Nikon SLM Solutions SLM 280 2.0 Laser Powder Bed Fusion (LPBF) system at UKAEA’s facilities. “We are excited to support the team at the UKAEA as they scale, not just with the SLM 280’s LPBF capability, but with all the key elements of the AM ecosystem to make this a robust manufacturing solution for UKAEA and the UK’s fusion programme,” said Will Priest, Business Development Manager at Additure. The SLM 280 Production Series system. Image via Nikon SLM Solutions. About UKAEA The UK Atomic Energy Authority (UKAEA) is the United Kingdom’s national fusion energy research organisation. It operates as an executive non-departmental public body, sponsored by the Department for Energy Security and Net Zero. A key part of its mission involves fostering industrial fusion capability by working with manufacturers and supply chains to introduce and scale the technologies required for commercial fusion energy deployment. “The UKAEA aims to develop the commercialisation of additive manufacturing and support UK industry in the transition into the fusion energy sector. We conduct the complex areas of research and development to the point where it becomes commercially viable, the advice and support of our supply chain is hugely valuable in expediting this process,” said Roy Marshall, Head of Operations for Fabrication, Installation, and Maintenance at UKAEA. JET interior with super imposed plasma. Image via UK Atomic Energy Authority. Additure’s Role and Technology Contribution At the center of this initiative is the SLM 280 2.0, an LPBF system designed for high-performance applications, including the development of refractory metals. The system offers build speeds up to 80% faster than single-laser alternatives and includes integrated safety features such as a powder sieve module and system cooling enhancements. Beyond equipment delivery, Additure is also providing comprehensive technical training to UKAEA’s research, materials, and design teams. This includes detailed guidance on machine setup, build optimization, and specialized functions—such as a heated reduced build volume. “The applications training from Additure will provide our engineers with new ways to design some of the complex structures required by fusion and allow them to do this using some of the most challenging materials to work with. For additive manufacture to contribute to fusion energy, more designers need to think, ‘What process is most suitable for the desired thermal or structural performance?’ And ‘how do I create a design that is best optimised for additive manufacture?’”, said Mr. Marshall. Advancing Laser Beam Shaping 3D Printing  Given its notable advantages for industrial metal 3D printing, beam shaping capabilities are being developed and commercialized by several players in the research and LPBF 3D printing spheres. In 2024, German research organization Fraunhofer Institute for Laser Technology ILT showcased its new 3D printing beam shaping technology. Working with the Chair of Technology of Optical Systems (TOS) at RWTH Aachen University, the new platform, the Fraunhofer team is developing a test system for investigating complex laser beam profiles.  This platform can create customized beam profiles for laser powder bed fusion (LPBF) 3D printing, enhancing part quality, process stability and productivity, while minimizing material waste.  In 2022, Equispheres and Aconity3D used laser beam-shaping 3D printing to achieve build rates nearly nine times higher than industry norms. Equispheres’ NExP-1 aluminum powder was used with Aconity3D’s AconityMIDI+ LPBF 3D printer to unlock speeds exceeding 430 cm3/hr for a single laser.  The system was modified to employ a PG YLR 3000/1000-AM laser with beam-shaping capabilities. By using a shaped beam over a zoomed Gaussian profile, the team reduced overheating and mitigated spatter formation during high-speed 3D printing.  Take the 3DPIReader Survey — shape the future of AM reporting in under 5 minutes. Who won the 2024 3D Printing Industry Awards? Subscribe to the3D Printing Industry newsletter to keep up with the latest 3D printing news. You can also follow us on LinkedIn, and subscribe to the 3D Printing Industry Youtube channel to access more exclusive content. Featured image shows JET interior with super imposed plasma. Image via UK Atomic Energy Authority.

Death Stranding fans, it seems like you’ve got something really killer coming your way. The sequel game, Death Stranding 2: On The Beach, is set to arrive in June and the franchise’s star, actor Norman Reedus, recently teased some of the game — as well as a key tidbit about the future film adaptation — in an interview with IGN.“If it was an option, yeah, for sure,” Reedus revealed when asked if he would consider playing himself in a future film version of the game which was announced to be in the works from Michael Sarnoski and A24 last month. “I don’t know what’s happening with it. It’s so pre pre pre right now. But yeah, of course.” @ign Norman Reedus teases Death Stranding 2 while promoting From the World of John Wick: Ballerina! #deathstranding #normanreedus #ballerina #johnwick #interview ♬ original sound - IGN Entertainment We also asked Reedus about his confusion with the first game and if he still felt that way going into the second one, but it seems he deeply trusts creator Hideo Kojima, whose reputation obviously precedes him. “As far as working with him and understanding where his head’s at, I don’t think anybody can understand where his head’s at,” the Walking Dead alum explained. “He’s just that guy, he’s out there and he’s got great ideas. But story-wise, I did know what was happening more. There’s more action in it, there’s more of a definite goal to get to.” That said, no matter what’s going on in the Death Stranding world, Reedus is happily along for the ride. “It’s always a trip working on those things,” he told IGN. “It’s great, but it’s wild.”Death Stranding 2: On The Beach will be released on June 26, 2025.Lex Briscuso is a film and television critic and a freelance entertainment writer for IGN. You can follow her on Twitter at @nikonamerica.

Netflix has announced it will roll out AI-generated advertising — including the dreaded pause ads — in the middle of its programming on the ad-supported tier from 2026.The news, which was reported by Media Play News, doesn’t specify how the company will target the viewer for these ads; will they be individualized based on watch history? On whatever the viewer is watching at the time? At this point, we know next to nothing about how the ads will work on the backend, or even how they will be presented. But they are coming.President of advertising Amy Reinhard recently revealed that the company sees its effort as a merging of the things Netflix excels in. “Either they have great technology, or they have great entertainment,” she explained at the recent Upfront for advertisers event in New York City. “Our superpower has always been the fact that we have both.”PlayThe exec added: “When you compare us to our competitors, attention starts higher and ends much higher. And even more impressive, members pay as much attention to mid-roll ads as they do to the shows and movies themselves.”Reinhard revealed ad-supported tier subscribers watch an average of 41 hours of Netflix per month, which, Kotaku worked out, equates to roughly three hours of ads per month for those viewers. That's a lot even if the ads aren’t AI. But in 2026, they will be.Netflix has yet to give an official date for the change to be implemented. Lex Briscuso is a film and television critic and a freelance entertainment writer for IGN. You can follow her on Twitter at @nikonamerica.

Metal 3D printer manufacturer Nikon SLM Solutions has formed a strategic partnership with U.S.-based specialty materials producer Allegheny Technologies Incorporated (ATI) and engineering firm Bechtel Plant Machinery, Inc. (BPMI) to drive advancements in hypersonic and naval propulsion technologies. As part of this collaboration, ATI has acquired the NXG 600E metal additive manufacturing system to boost production capacity for critical components supporting U.S. Navy and Department of Defense programs at its manufacturing sites. “The NXG 600E’s expansive build volume and sophisticated support structure capabilities align seamlessly with U.S. Navy propulsion requirements,” expressed Nathan Weiderspahn, BPMI Executive Manager, Industrial Base Management. “Nikon SLM Solutions’ cutting-edge additive manufacturing technology is set to play a pivotal role in advancing the U.S. Navy’s operational readiness, contributing to the maintenance and enhancement of our nation’s fleet.” SLM Solutions’ NXG XII 600E 3D printer. Image via SLM Solutions. Expanding Defense Manufacturing with the NXG 600E As part of this partnership, ATI has purchased the NXG 600E metal additive manufacturing system. The system was selected to address the technical requirements of U.S. Navy propulsion and hypersonic weapon components. With its 1.5-meter Z-axis and high production capacity, the NXG 600E is intended to support ATI’s manufacturing capabilities in defense applications. ATI plans to utilize Inconel 625 with the NXG 600E, a high-performance alloy widely used in hypersonic and naval propulsion systems, as well as various demanding industrial applications. The June delivery of the NXG 600E is expected to enhance ATI’s metal additive manufacturing capabilities, leveraging their proven success with the SLM125 and expertise in Nikon SLM’s open machine architecture and advanced parameter development. SLM 280 3D printer. Photo via Nikon SLM Solutions. “In the dynamic landscape of additive manufacturing, Nikon SLM Solutions is taking a significant leap forward,” said Sam O’Leary, CEO. ” This strategic development underscores our commitment to delivering American-made ingenuity, superior technology, and empowering the defense and aerospace sectors with cutting-edge additive manufacturing capabilities,” said Sam O’Leary, CEO of Nikon SLM Solutions. Industrial Adoption of the NXG XII 600E Launched in 2022, the NXG XII 600E by SLM Solutions is a metal additive manufacturing system with a build volume of 600 × 600 × 1,500 mm enabled by a 1.5-meter Z-axis. Equipped with twelve 1,000-watt lasers, the NXG delivers fast and accurate melting of metal powder, enabling the production of high-quality, uniform parts. The system is designed to handle large, complex components in a single build and supports industrial-scale production with features aimed at improving speed and process control. It includes workflow enhancements intended to maximize machine uptime and reduce production cycle times. Among the recent adopters of the NXG XII 600 technology is German multinational engineering and technology company Bosch launched a new metal additive manufacturing facility at its Nuremberg plant, investing nearly €6 million.  At the heart of the facility is a Nikon SLM Solutions NXG XII 600 metal 3D printer, which the company says will play a key role in producing complex metal parts more efficiently. With this addition, the automotive giant sees itself as the first Tier-1 automotive supplier in Europe to operate a facility in this performance class. Elsewhere, semiconductor manufacturing company Veeco started using Nikon SLM Solutions’ NXG XII 600 metal AM system to advance its production processes. Designed for creating intricate components such as gas delivery systems and heat exchangers, the technology enhances precision and efficiency in semiconductor manufacturing. Having integrated additive manufacturing into its operations, Veeco aims to enhance productivity and accelerate time-to-market. Take the 3DPI Reader Survey — shape the future of AM reporting in under 5 minutes. Who won the 2024 3D Printing Industry Awards? Subscribe to the 3D Printing Industry newsletter to keep up with the latest 3D printing news. You can also follow us on LinkedIn, and subscribe to the 3D Printing Industry Youtube channel to access more exclusive content. Featured image shows Nikon 3D Printing. Photo via Nikon. Paloma Duran Paloma Duran holds a BA in International Relations and an MA in Journalism. Specializing in writing, podcasting, and content and event creation, she works across politics, energy, mining, and technology. With a passion for global trends, Paloma is particularly interested in the impact of technology like 3D printing on shaping our future.