PRECISE 3D HUB’s Post

#3DPrinting has made great strides in recent years, but what about complex and delicate radially multi-material model geometries without supporting structures? In #IJEM, researchers have developed a Polar-coordinate Lineprojection Light-curing Production (#PLLP) technology that uses a rod as the printing platform to tackle these challenges. They showcased how a tubular graft with a height of 2.5 cm and an inner radius of r= 1.5 mm can be printed in just 100 seconds. Furthermore, its printing #materials are not limited by viscosity, allowing it to be applied to a wider range of printing environments. With an increase in illumination power, faster forming speeds can be achieved, theoretically reducing the time and cost associated with the manufacturing of some biodegradable tubular grafts, dental products, and aerospace applications. Learn more about this innovative 3D printing technology at https://lnkd.in/g8KkVe9U #AdditiveManufacturing, #Structure, #Manufacturing, #Laser, #Bioengineering, #Aerospace, #Technology

#3DPrinting has made great strides in recent years, but what about complex and delicate radially multi-material model geometries without supporting structures? In #IJEM, researchers have developed a Polar-coordinate Lineprojection Light-curing Production (#PLLP) technology that uses a rod as the printing platform to tackle these challenges. They showcased how a tubular graft with a height of 2.5 cm and an inner radius of r= 1.5 mm can be printed in just 100 seconds. Furthermore, its printing #materials are not limited by viscosity, allowing it to be applied to a wider range of printing environments. With an increase in illumination power, faster forming speeds can be achieved, theoretically reducing the time and cost associated with the manufacturing of some biodegradable tubular grafts, dental products, and aerospace applications. Learn more about this innovative 3D printing technology at https://lnkd.in/gr9gR2RT #AdditiveManufacturing, #Structure, #Manufacturing, #Laser, #Bioengineering, #Aerospace, #Technology

SWISSto12 MAKES STRATEGIC INVESTMENT IN FOUR Additive Industries MetalFabG2 PRINTERS Founded in 2011 as a spin-off from the Swiss Federal Institute of Technology in Lausanne (EPFL), SWISSto12 gained international recognition for its innovative use of #precisionmanufacturing and #3Dprinting in developing next generation #RFproducts. The company has developed the world’s largest IP portfolio for the use of 3D printing in RF product applications, relying on optimized and complex geometries that make full use of the design freedom of #additivemanufacturing. Read more: https://lnkd.in/e_a9dE8y Dutch High Tech Systems #DutchHTS #hightechsystems #hightech #technology #brainporteindhoven #tech Angela Eijsbouts Mark Magielsen Picture source: https://lnkd.in/eG7THSMM

What are the new and emerging trends in the Electronics additive manufacturing (AM) industry you should know about? https://lnkd.in/exkditvy From advancements in materials to evolving production techniques, the next wave of 3D printing technology will drive even more adoption across an increasingly diverse cross-section of industries. This particular issue focuses on recent developments, trends, and practical implementations within the field of 3D-printed electronics. 🎥 recent tradeshow It includes perspectives from prominent industry specialists and input from the engineering team at J.A.M.E.S, all geared towards examining the dynamic environment of Additively Manufactured Electronics (AME) and further applications. 🎩 J.A.M.E.S GmbH • #3Dprinting • #AdditiveManufacturing • tuan@anisoprint.com • Like 👍 what you see ► Hit the Bell 🔔 to follow me. P.S. Repost ♻️ if you find it valuable. Thanks! 🙏

What are the new and emerging trends in the additive manufacturing (AM) industry you should know about? https://lnkd.in/exkditvy From advancements in materials to evolving production techniques, the next wave of 3D printing technology will drive even more adoption across an increasingly diverse cross-section of industries. This particular issue focuses on recent developments, trends, and practical implementations within the field of 3D-printed electronics. It includes perspectives from prominent industry specialists and input from the engineering team at J.A.M.E.S, all geared towards examining the dynamic environment of Additively Manufactured Electronics (AME) and further applications. 🎩 Thiri Ko Ko Zaw + Daniela Velásquez via J.A.M.E.S GmbH • #3Dprinting • #AdditiveManufacturing • tuan@anisoprint.com • Like 👍 what you see ► Hit the Bell 🔔 to follow me. P.S. Repost ♻️ if you find it valuable. Thanks! 🙏

this is the new era of 3D printing

What are the new and emerging trends in the Electronics additive manufacturing (AM) industry you should know about? 🔗 https://lnkd.in/exkditvy From advancements in materials to evolving production techniques, the next wave of 3D printing technology will drive even more adoption across an increasingly diverse cross-section of industries. This particular issue focuses on recent developments, trends, and practical implementations within the field of 3D-printed electronics. 🎥 recent tradeshow It includes perspectives from prominent industry specialists and input from the engineering team at J.A.M.E.S, all geared towards examining the dynamic environment of Additively Manufactured Electronics (AME) and further applications. 🎩 J.A.M.E.S GmbH + Thiri Ko Ko Zaw • #3Dprinting • #AdditiveManufacturing • tuan@anisoprint.com • Like 👍 what you see ► Hit the Bell 🔔 to follow me. P.S. Repost ♻️ if you find it valuable. Thanks! 🙏

🚀 Introducing the Blocks RF50 - Watch the Innovation in Action! 🎥 We’re thrilled to unveil the promotional video for our latest innovation, the Blocks RF50! Designed for professionals and industries that demand precision, speed, and reliability, the RF50 takes 3D printing to the next level. 🌟 What to Expect: ✅ Large build volume for ambitious projects ✅ High-speed performance without compromising quality ✅ Industrial-grade durability to meet demanding applications Get a first-hand look at the RF50 in action and discover how it’s shaping the future of 3D printing. 📺 Watch the video now and see why the Blocks RF50 is redefining possibilities! 🔗 https://lnkd.in/d5eq2YXu #BlocksRF50 #3DPrinting #Innovation #Technology #IndustrialDesign #FutureReady

Check out more about out newest product, the Blocks RF50! 🚀

[A 3-D Printed Ultra-Wideband Achromatic Metalens Antenna] Yu-Xuan Xie, Geng-Bo Wu, Wen-Qiang Deng, Shu-Yan Zhu and Chi Hou Chan propose a millimeter-wave achromatic metalens antenna using three-dimensional (3D) printing technology to reduce the dispersion effect and enlarge its bandwidth. The proposed ultra-wideband achromatic metalens antenna consists of a convex-liked metalens (VLM) and a concave-liked metalens (CLM) integrated as a metalens group. The VLM is designed on the basis of dielectric posts with different heights. The calculated transmission phase (from 0 to 2π ) of VLM can be realized by changing the height of dielectric posts. Read their article here: https://lnkd.in/gW9S4PrB This paper is featured in the Special Section on Advanced Beam-Forming Antennas for Beyond 5G and 6G #Lenses #Gain #Dielectrics #Antennas #DipoleAntennas #AntennaFeeds #Dispersion #MillimeterWaveDevices #3Dprinting #APS #IEEE #OJAP