Paragon Rapid Technologies Ltd.’s Post

🚀 The G12 Pellet 3D Printer is a large-format, high-speed multiple plastic extrusion printer designed for large-scale additive manufacturing. This printer is a cost-effective solution for producing large parts rapidly while maintaining industrial-grade accuracy, surface finish, and consistency. It is particularly suited for creating sizable patterns, molds, batch production runs, and functional prototypes. 🚀 🌟 Key features: ✅Build volume 1200x1000x1000mm ✅Accepts a variety of particles/pellet, especially recycled materials and new materials. ✅Screw extruder design,max nozzle temperature up to 450℃ ✅Large extrusion capacity, up to 5KG/hour ✅Constant heating chamber Always welcome to contact me for more details! huying@piocreat3d.com WA:+8615986771721 #piocreat #piocreat3d #G12 #piocreatg12 #pellet3dprinter #granularprinter #recycledmaterials #petg #pp #pet #newmaterial #additivemanufacturing #industrial3dprinter #automation #aerospace #molding #3dfurniture #compositematerials

🚀 The G12 Pellet 3D Printer is a large-format, high-speed multiple plastic extrusion printer designed for large-scale additive manufacturing. This printer is a cost-effective solution for producing large parts rapidly while maintaining industrial-grade accuracy, surface finish, and consistency. It is particularly suited for creating sizable patterns, molds, batch production runs, and functional prototypes. 🚀 🌟 Key features: ✅Build volume 1200x1000x1000mm ✅Accepts a variety of particles/pellet, especially recycled materials and new materials. ✅Screw extruder design,max nozzle temperature up to 450℃ ✅Large extrusion capacity, up to 5KG/hour ✅Constant heating chamber Always welcome to contact me for more details! Shirley@piocreat3d.com WA:+8618370307423 #piocreat #piocreat3d #G12 #piocreatg12 #pellet3dprinter #granularprinter #recycledmaterials #petg #pp #pet #newmaterial #additivemanufacturing #industrial3dprinter #automation #aerospace #molding #3dfurniture #compositematerials

Calling all magnet enthusiasts and industry professionals! 🧲✨ We've got some exciting insights to share about the latest trends shaping the world of magnets and magnetic assemblies. First up, the demand for rare-earth magnets is skyrocketing, driven by the rapid growth of industries like renewable energy, electric vehicles, and consumer electronics. 🌍🔋📱 These powerful magnets are essential for high-efficiency motors, generators, and other applications that require compact and lightweight designs. But did you know that the supply of rare-earth elements is limited and heavily concentrated in a few countries? 🌎 This has led to increased efforts in recycling and developing alternative materials for permanent magnets, such as ferrite and AlNiCo magnets. ♻️ Another trend we're keeping a close eye on is the rise of 3D printing for custom magnet assemblies. 3D-printed magnets offer unprecedented design flexibility, enabling complex shapes and geometries that were previously impossible or prohibitively expensive to manufacture. 🖨️💡 Stay tuned as we dive deeper into these fascinating topics and more! We're committed to sharing our expertise and keeping you informed about the latest advancements in the magnetic world. 📚💫 Let us know in the comments if there are any specific topics you'd like us to cover. We're always eager to engage with our fellow magnet enthusiasts! 🤩 #MagnetTrends #RareEarthMagnets #3DPrintedMagnets #MagneticAssemblies

With additive manufacturing, design iterations can be implemented swiftly without capital expenses, offering maximum flexibility and responsiveness to customer feedback. For example… HOW IT STARTED: PHYTEC America contacted DI Labs with an urgent need: they had developed a state-of-the-art cloud-connected EV charging solution but needed a housing for demonstration purposes. Our housing solution went from concept to production in just 8 days. It was printed with Nylon PA12, vapor smoothed and dyed black. HOW IT’S GOING: As PHYTEC and Texas Instruments found success with our original housings, we experimented with design revisions by adding a detailed surface texture then printing with Ultra White Nylon PA12. The changes created a crisp, clean look that enhanced the client’s tradeshow demonstration and created greater customer engagement. See the original project featured in our recent Solutionology Stories newsletter: https://lnkd.in/gMzJKfHQ Subscribe on LinkedIn to make sure you see future newsletter editions! #engineering #productdevelopment #productdesign #additivemanufacturing #digitalmanufacturing #digitalmindset #3dprinting

How would you describe the term "lightweight design"? 🤔 In most cases, one immediately associates this term with mass reduction. But there is much more to lightweight design. It can by no means be reduced to the simple topic of „slimming down“. 👍 At LZS, we deal with the characteristics of a wide variety of materials and the possibilities offered by different technologies on a daily basis, using the full range of options to put our customers requirements into application. ✔️ A primary condition to reach this goal is an accurate identification and exact control of production-, and process-related effects, as the following simple example shows. The two test specimens were printed from PLA by the additive manufacturing process and are identical in volume, geometry and thus mass. ⚙️ The only difference is the preferred printing direction, which is marked by the arrows. The bending test shows a significant difference in stiffness, proving that a supposedly isotropic material might behave far from isotropic in the real world. 🌎🔩 Would you like us to use our in-depth understanding of materials and technology to apply such effects for the benefit of your projects? 📈 Please don't hesitate to contact us with your requirements at 📞 Tel: +49 351 446960 90 #innovation #lightweight #leichtbau #innovativeedge #engineering #simulation #testing #manufacturing #composites

Rethinking Foam: The Future of Manufacturing #WhatDoYouThink The enthusiasm around my posts on FDM and SLA technologies for crafting new types of foam has been nothing short of inspiring. It seems many of us are exploring similar innovations, but why? What are the real advantages of these new manufacturing methods? Here’s my take: Why It’s Crucial: 🌐 Environmental Impact: Traditional seating foam production is notorious for generating tons of non-recyclable waste. In contrast, our methods can significantly reduce this. ✅ Customization: Traditional methods lack the flexibility for low volume or personalized production. New technologies open the door to bespoke solutions. ✳️ Safety: Conventional foam is flammable. Our processes can incorporate fire retardant properties without compromising safety. ❇️ Innovation: By integrating 100% recyclability and creating auxetic structures, we can reimagine foam with enhanced features and performance. Facing the Challenges: ❗️Costs: New techniques may initially be more costly, but scalability and efficiency gains can offset these expenses. ❓Uncharted Territory: While traditional manufacturing is a well-trodden path, embracing new methods requires venturing into the unknown—a challenge we’re ready to tackle. 🛑 Speed: Transitioning from days to just 12-20 hours for production marks significant progress. Envision an operator overseeing ~40 machines; with about 300 printers, we’re looking at a seat produced every 2.4 minutes. Not so far from the industry standard of 40 seconds per car seat and with considerable benefits: smaller footprint, lower energy consumption, and all the aforementioned advantages. Who’ll Pioneer the Giga Foam Factory? This journey reshapes not just how we think about foam but also how we value production’s impact on our world. I’m eager to hear your thoughts. Are the benefits worth the challenges? Who do you think will lead the charge in this manufacturing revolution? Video - Printing TPU at 170mm/sec with 0.4mm nozzle and 0.3mm layer height (21.42mm^3/sec) #InnovationInManufacturing #SustainableSolutions #3DPrinting

| EOS Case Study - PCBs - Beta Layout | Additive manufacturing offers a significant advantage for both individual developers and large established companies by enabling the creation of custom-made circuit carriers for prototypes of new electronic devices. The process allows for the rapid and cost-effective production of plastic components while maintaining the necessary precision and high component quality. This ensures that the basic structure can be manufactured to closely resemble a series-production item, which is particularly beneficial during test runs. EOS technology provides a high degree of flexibility by allowing the machine to process various materials. These materials include PA 3200 GF, filled with glass beads, and the aluminum-filled polyamide Alumide. High-performance polymers like PEEK and various metals are also available. Crucially, all these materials can withstand high temperatures, a common limitation in the injection-molding process used for series production. This flexibility enables Beta LAYOUT to meet the diverse individual requirements of its customers, such as specific characteristics needed for the intended purpose of the circuit carrier. As a result, the company can develop optimized solutions that may offer lower costs, higher temperature resistance, or other specific benefits. Get an access to the case study. https://zurl.co/YNoj Dhaval Mandalia Pavan Patole Milind Deshpande Sumukha Koundinya Sangameshwar Ghattargi #EOS #AdditiveManufacturing #3DPrinting #PCBDesign #BetaLayout #EOSTechnology #DigitalManufacturing #Prototyping #InnovativeTech #ElectronicsDesign #TechInnovation #3dengineeringservices #3dengg

Additive manufacturing has a lot of advantages to offer you in the electronics sector. For example, plastic electronics housings. Each optimisation that you gain while designing your custom electronic enclosures — with integrated and highly efficient heatsink designs, integrated hinges, lightweight enclosure sections — is a force multiplier. The combined optimisations all add up exponentially, reducing your component count, component costs, assembly costs, product complexity and time-to-market. Learn more at: https://lnkd.in/dYDSbGF (Image: Markforged) #EOS #3dprinting #3dprint #3dscanning #dyemansion #dmls #sls #markforged

Additive manufacturing has a lot of advantages to offer you in the electronics sector. For example, plastic electronics housings. Each optimisation that you gain while designing your custom electronic enclosures — with integrated and highly efficient heatsink designs, integrated hinges, lightweight enclosure sections — is a force multiplier. The combined optimisations all add up exponentially, reducing your component count, component costs, assembly costs, product complexity and time-to-market. Learn more at: https://lnkd.in/dYDSbGF (Image: Markforged) #EOS #3dprinting #3dprint #3dscanning #dyemansion #dmls #sls #markforged

Additive manufacturing has a lot of advantages to offer you in the electronics sector. For example, plastic electronics housings. Each optimisation that you gain while designing your custom electronic enclosures — with integrated and highly efficient heatsink designs, integrated hinges, lightweight enclosure sections — is a force multiplier. The combined optimisations all add up exponentially, reducing your component count, component costs, assembly costs, product complexity and time-to-market. Learn more at: https://lnkd.in/dYDSbGF (Image: Markforged) #EOS #3dprinting #3dprint #3dscanning #dyemansion #dmls #sls #markforged