Bright Laser Technologies - BLT’s Post

Additive manufacturing parts are known for their exceptional strength, utilizing materials like stainless steel, metal, polycarbonate, PEEK, and other materials. The emergence of innovative materials has opened doors for various industries to leverage additive manufacturing, including the golf club industry. Golf clubs are now being 3d printed with strength, durability, and high-stress resistance at a fraction the the price of traditional methods. When you consider the costs of producing unique golf clubs, it is extremely expensive. With 3D printing, if you have the design file and a 3D printer, you can manufacture parts indefinitely because the CAD file doesn’t wear out like a forging die. This allows for small changes and innovations without needing to produce new dies. We recently #3dprinted this stainless steel golf club to compare its performance to other golf clubs. Its strength and stress resistance make it suitable as an end-use part and it is just as reliable as clubs produced by other methods. What parts have you created that you believe could be used in production? Share your experiences in the comments below! #additivemanufacturing #3Dprinters #3dprinting #3dprint #3dprints #3dprintingmaterials #production #engineering #golfing #manufacturing #3dprintinginnovation

Just another ultra-limited edition #3Dprinted #sports product with $3,000 price tag? Think again because the new LIMIT3D irons from COBRA PUMA GOLF are just the tip of the iceberg. Working with HP 3D Printing on #MetalJet (and now nTop for the optimized design), the company makes more 3D printed golf products than traditionally manufactured ones, showing once again that when a major consumer products company bets on 3D printing it pays off (even if it usually starts with ultra-limited editions)

UV printing to achieve the surface style of your desired pickleball paddle.

Are you familiar with Lattice Structures? 🕸️ Keeping it short, are a repeated pattern inside a surface (2D) || volume (3D): We can find them in nature, for example the honeycomb of beehives or in the internal structure of bones. Engineering also takes advantage of this type of structures because they allow to: - Design lightweight components 🚀 - Manufacture 3D printed foams for cushioning - Create high energy or shock absorption structures - Design really good thermal management components - Create unique textures in surfaces 🕸️There is a lot to learn from nature in the field of lattice structures. Do you find it interesting? Let me know in the comments 🗨️ Do you want to learn more? Keep tune in! 10:00 CET P.S. 🚨Might not suitable for people with Trypophobia 𝐼𝑓 𝑦𝑜𝑢 𝑙𝑖𝑘𝑒𝑑 𝑖𝑡, 𝑠ℎ𝑎𝑟𝑒 𝑖𝑡 𝑤𝑖𝑡ℎ 𝑦𝑜𝑢𝑟 🌐 𝑛𝑒𝑡𝑤𝑜𝑟𝑘 𝑎𝑛𝑑 𝑑𝑜𝑛’𝑡 𝑙𝑜𝑠𝑒 𝑖𝑡! → 🔖 𝑆𝑎𝑣𝑒 𝑡ℎ𝑒 𝑝𝑜𝑠𝑡 (··· 𝑆𝑎𝑣𝑒) #latticestructure #additivemanufacturing #engineering A) 3D Printed Bike Seat developed by fizik B) 3D Printed Orthopedic Implant developed by NanoHive Medical C) 3D Printed Hockey Helmet developed by Carbon & CCM Hockey D) 3D Printed Heat Exchanger developed by nTop, PUNTOZERO - Design for Additive Manufacturing & Dynamis PRC E) 3D Printed Shoe Sole developed by adidas

Project Update: Underwater Hockey Pucks 🌊 This week, we’re sharing an update on a project we're currently working on - developing underwater hockey pucks. Our aim is to create a product that offers replaceable parts at a lower cost for consumers compared to existing options on the market. In the video below, you can see part of our prototyping process. We're mixing polyurethane resin, and injecting it into an SLA 3D printed mould around a cast lead core. This stage is key in refining the puck's design to meet the demands of the sport. All prototyping for this project has been completed in-house at Luft. This includes mould design, 3D printing, lead core casting, and polyurethane casting. Managing the entire process ourselves ensures we maintain control over quality and can adapt quickly to any changes. If you need support with product design, prototyping, 3D printing, or reverse engineering, get in touch with Luft Product Design. We’re here to help bring your ideas to life. info@luftproductdesign.co.uk | +44 (0)330 043 0704 #ProductDesign #Prototyping #3DPrinting #UnderwaterHockey #LuftProductDesign #Engineering

Are you familiar with Lattice Structures? 🕸️ Keeping it short, are a repeated pattern inside a surface (2D) || volume (3D): We can find them in nature, for example the honeycomb of beehives or in the internal structure of bones. Engineering also takes advantage of this type of structures because they allow to: - Design lightweight components 🚀 - Manufacture 3D printed foams for cushioning - Create high energy or shock absorption structures - Design really good thermal management components - Create unique textures in surfaces 🕸️There is a lot to learn from nature in the field of lattice structures. Do you find it interesting? Let me know in the comments 🗨️ Do you want to learn more? Keep tune in! 10:00 CET P.S. 🚨Might not suitable for people with Trypophobia 𝐼𝑓 𝑦𝑜𝑢 𝑙𝑖𝑘𝑒𝑑 𝑖𝑡, 𝑠ℎ𝑎𝑟𝑒 𝑖𝑡 𝑤𝑖𝑡ℎ 𝑦𝑜𝑢𝑟 🌐 𝑛𝑒𝑡𝑤𝑜𝑟𝑘 𝑎𝑛𝑑 𝑑𝑜𝑛’𝑡 𝑙𝑜𝑠𝑒 𝑖𝑡! → 🔖 𝑆𝑎𝑣𝑒 𝑡ℎ𝑒 𝑝𝑜𝑠𝑡 (··· 𝑆𝑎𝑣𝑒) #latticestructure #additivemanufacturing #engineering A) 3D Printed Bike Seat developed by fizik B) 3D Printed Orthopedic Implant developed by NanoHive Medical C) 3D Printed Hockey Helmet developed by Carbon & CCM Hockey D) 3D Printed Heat Exchanger developed by nTop, PUNTOZERO - Design for Additive Manufacturing & Dynamis PRC E) 3D Printed Shoe Sole developed by adidas

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💥 3D Printed Watch Cases: Precision and Innovation Combined🌟 👀 Check out these amazing advantages: 😎 Complex geometries: Allows for the creation of complex and intricate designs.  🤩 Customization: Enables personalized and unique watch cases to be produced. ⚖️ Lightweighting: Can optimize the design for reduced weight without sacrificing strength.  👍 Increased design freedom: Facilitates the integration of different components and features within the watch case.  ⏱️ Reduced production time: Shortens the manufacturing process compared to some traditional methods. 🔧 Complex assemblies: Simplifies the assembly process by integrating multiple parts into a single print. 🌟 Material properties: Offers access to high-performance metals with specific properties required for watch cases likes Ti-6Al-4V. #Metal3DPrinting #WatchCases #ConsumerElectronics #Customization #Lightweight #DesignFreedom #ProductionTime #ComplexAssemblies #MaterialProperties

We can't get enough of these Nodus watch bezels! Would you wear a 3D printed watch? #3dprinter #3dprinting #noduswatches #watches #additivemanufacturing #rapidprototyping

What you see is what you got! Cosa vedi è esattamente cosa potresti godere! #L-PBF #SLM #Metal3DPrinting #WatchCases #ConsumerElectronics #Customization #Lightweight #DesignFreedom #ProductionTime #ComplexAssemblies #MaterialProperties