Motic Scientific’s Post

Nanometer level position, speeds in excess of 10x what contact bearings can achieve, and cleanroom compliance means that porous media bearings are the optimal motion solution for the next generation of additive manufacturing! #Airbearings #linearmotion https://hubs.ly/Q02JnryM0

Check out our recent interview "How Additive Manufacturing of Glass is Transforming Industries – Interview with Nobula CEO Chunxin Liu" by 3Druck.com   Our CEO dives deep into how our Direct Glass Laser Deposition technology (DGLD®) is revolutionizing industries🚀. "From our perspective, particularly with advancements in glass AM, we are poised to see a profound impact on various industries in the coming years. The unique capabilities of glass AM, such as producing intricate shapes with optical clarity, bio compatibility, and thermal stability, open up new horizons in sectors such as optics, pharmaceuticals, and lab-on-a-chip systems."💡 Read the full interview 📰 here: https://lnkd.in/dPGvKZx8 in English https://lnkd.in/dKEADdQ3 in German #AdditiveManufacturing #Innovation #Glass3DPrinting #Nobula

Thrilled to share that our patent on 'System and method for sub-wavelength detection for jetting-based additive manufacturing using a split ring resonator probe' has been granted. This #insitu #diagnostic aims to detect and analyze droplets of feedstock material being ejected from an additive manufacturing device. The split ring resonator allows detection of sub-wavelength sized droplets (100 microns) that bridges the gap between microwaves and additive manufacturing. Thanks to my co-inventor Tammy Chang and all my colleagues from Lawrence Livermore National Laboratory in this project. https://lnkd.in/gPzZraV4 #additivemanufacturing #insitu #diagnostics #microwaves #metamaterials Joseph Tringe David Stobbe, Ph.D., P.E.

✨ Excited to share that our latest paper titled "Single-photon-assisted two-photon polymerization" has been published in Additive Manufacturing. In this paper, we propose a method that combines both single- and two-photon absorption to accelerate the #3Dprinting process while maintaining sub-micrometer resolution. We investigate the effect of pre-sensitization of the resin by 1PA on the speed and resolution of #2PP. By introducing blue light pre-sensitization in a light-sheet configuration into our custom-built two-photon 3D printer, we reduced the femtosecond laser power by 28.6% and halved the exposure time compared with polymerization performed only by 2PA. This also resulted in a 63% improvement in axial voxel size! Additionally, we propose a theoretical model suggesting that the mechanism of the pre-sensitization is driven by oxygen depletion followed by single-photon background latent polymerization. 📎 You can read more here: https://lnkd.in/e_w2BS4W A huge thanks to all co-authors María Isabel Álvarez Castaño, Antoine Boniface, Ye Pu, and Christophe Moser for their invaluable contributions!

Are you striving for stronger, more reliable FDM parts? Discover the innovative techniques and insights shared by ADDMAN’s experts in our latest article on 3Dnatives. Learn how ADDCAAM's advanced technologies enhance the strength and durability of your FDM prints, pushing the boundaries of additive manufacturing. 🔗 Read the full article here: https://bit.ly/3VMIgKD

📢 #HighlyCited 1. Altering the Supply of Shielding Gases to Fabricate Distinct Geometry in GMA Additive Manufacturing https://lnkd.in/geaFZhXp 2. Robotic Magnetorheological Finishing Technology Based on Constant Polishing Force Control https://lnkd.in/gpfnG-7s 3. Recycled PP for 3D Printing: Material and Processing Optimization through Design of Experiment https://lnkd.in/gQ9pY9Qz 4. Impact of the Power-Dependent Beam Diameter during Electron Beam Additive Manufacturing: A Case Study with γ-TiAl https://lnkd.in/gip3Xsta MDPI Encyclopedia MDPI

Optomec will present their AJ (Aerosol Jet) technology and DED LENS® technology together with our partner YUNS from China at the upcoming NECC (National Exhibition and Convention Center) Shanghai TCT show at booth 8F64, Hall 8.1 May 7th – 10th 2024. Optomec is announcing new technology around AJ offerings that will take our customers to a level of mass production ready operations within their factory, we have listened to our customers and have received many recommendations that will allow a migration path forward in advanced AJ technology for digital factories. Customers will have a path to migration shortly to our new line of machines being announced.  Optomec has looked at new ways to introduce enterprise class technology/Software for AJ that opens up the architecture for mass production within factories. By teaming with our material vendors, we have aligned our material vendors producing optimal results for many verticals.  In addition to our new AJ offerings, Optomec will be announcing automation as a service focused on mass production. A customer that is implementing mass production will have the ability to work with the Optomec and design engineering team as a professional service to develop automation apparatus to fit our machines and apply their application printing technology for continuous operations in their digital factories.     Our DED technology continues to expand with new applications being applied. Optomec is teaming with strategic partners in medical to introduce a line of medical solutions focused on the implant operations around Optomec cladding and coating functionality. We continue to innovate our additive DED metal printer line-up with the introduction of a new additive metal machines addressing expansion of our verticals in repair, and additive verticals.  Optomec is adopting new customers in Automotive, Aerospace and now medical verticals applications that are exceeding our customer requirements. Optomec is innovating in advancing the management and operations software platform and will be introducing manageability of their machines where we put the power of the operations into our customers and give them visibility in building and operating with improvements around their digital factories. Please feel free stop by or make an appointment for a further discussion with our teams. #optomec #aerosoljettechnology #AdditiveManufacturingDigitalTransformation #materialsproduction #semiconductor #electronics #antenna #microstructures #waferlevelpackaging  

Scientists are using a unique combination of materials to transform typical PLA into a conductor, enabling the fabrication of self-heating microfluidics. This innovative approach employs a multilateral 3D printer to construct chemical reactors that can perform precisely as required. They have managed to create a device as compact as a U.S. quarter with channels for fluid and facilitating chemical reactions. However, the heat limitation of PLA (50 degrees Celsius) presents a challenge for certain applications. #Microfluidic #ChemicalProcessing  

🚀 Revolutionary 3D Printing Technology Leads Industry Transformation 🚀 In the modern manufacturing industry, where excellence is pursued, details make a difference. This is particularly reflected in industries such as semiconductors, precision medicine, and electronics. BMF's PµSL technology has micron precision and tight tolerance, which can fully ensure that the final products perfectly match the prototype design. 🌐 Customized and Efficient Solutions — From microchips to microneedle patches, the application range of BMF technology is extensive, providing strong support for shortening product development cycles and reducing costs. 🏆 BMF's Professional Commitment — We conduct a rigorous quality assurance process for every product, ensuring that each part meets your specifications. 🔗 Click the link to learn how BMF can help your business enhance product quality and innovation capabilities, and explore the future of precision manufacturing together.  https://lnkd.in/gMiYZDh3 #PrecisionManufacturing #TechnologyInnovation #BMFScientificArticle #PµSLTechnology #QualityAssurance #ManufacturingInnovation

Curious about trends in additive manufacturing? Explore the results of a survey conducted by 3YOURMIND, a finalist of Sixth Sense Cohort Two. https://lnkd.in/gyRWgfKm Here are the key highlights: 🧲Interest in metals: Metal additive #manufacturing gains momentum – 50% of respondents wanted to learn more about 3D printing with nickel alloy, stainless steel, titanium and polymer materials like carbon fibre. ⚙️ Technology Trends: FDM, SLS, and Stereolithography remain the top-used technologies, with the majority of companies using then, 📐DfAM Demand: Despite additive manufacturing knowledge becoming more common in business and education, 33% of businesses needed Design for Additive Manufacturing (DfAM) services to drive AM adoption. What trends, opportunities and challenges are you seeing in Additive Manufacturing? Let’s discuss in the comments! #AdditiveManufacturing #3DPrinting #Manufacturing #Innovation