Piro Spring is our upcoming 3D printed AFO with a printed replaceable strut optimized for each patient and seamlessly integrated into the device. Here’s why you will love it: 1) Replaceable Strut: Fine-tune resistance, PF angle, and internal rotation for each patient. 2) Comfortable: Patent-pending design with bio-responsive features and new combo padding. 3) Toe-Plate Stiffness: Select the right flexibility of the toeplate. 4) Optional Lacer Closure: Ensures a secure fit, allowing true control throughout the gait cycle. The Piro Spring AFO is the result of 3 years of design optimization and systematic tests, made possible by 3D printing and advanced design. Discover soon the game-changing Piro Spring! Find out more at www.piroafo.com
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Curious about how the VCM Filament Molder can transform your lab work? This innovative technology elevates precision printing and research efficiency. 🎯 𝗣𝗲𝗿𝗳𝗲𝗰𝘁 𝗣𝗿𝗲𝗰𝗶𝘀𝗶𝗼𝗻: Our PTFE tube technology guarantees precise 1.75 mm diameter accuracy for every filament produced, ensuring flawless 3D prints every time. Say goodbye to inconsistent filament! ⚙️ 𝗖𝗼𝗺𝗽𝗮𝗰𝘁 𝗘𝗳𝗳𝗶𝗰𝗶𝗲𝗻𝗰𝘆: The innovative spiral design delivers 1 meter of filament in a space-saving footprint, optimizing your lab space. 🔬 𝗩𝗲𝗿𝘀𝗮𝘁𝗶𝗹𝗲 𝗔𝗽𝗽𝗹𝗶𝗰𝗮𝘁𝗶𝗼𝗻𝘀: Effortlessly handle a wide range of materials, from powders to pellets to VCM samples, offering unmatched versatility for your research. ⏱️ 𝗧𝗶𝗺𝗲 𝗮𝗻𝗱 𝗥𝗲𝘀𝗼𝘂𝗿𝗰𝗲 𝗦𝗮𝘃𝗶𝗻𝗴𝘀: Enjoy a loss-free production process starting with as little as 3 grams of material, with no cleaning required between material changes. The VCM Filament Molder is a game-changer for material characterization and 3D printing. Ready to unlock precision, efficiency, and versatility? Elevate your research capabilities today: https://lnkd.in/dCVX5zZQ
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Two screws running internally through the body of this desk lamp mount create a strong, stiff mount that doesn’t flex when tightened in place. The screws also reinforce the printed layers, preventing separation along the layer lines when the mount is tightened in place. When designing and 3D printing custom knobs like the one used here, I can take into account how much torque can be applied to the knob. The diameter of the knob used in this design lets the user apply enough torque to securely tighten the desk mount without applying so much torque that the mount is over-stressed. Check out the links in my bio to see more. Get in touch for design and fabrication of custom 3D printed solutions. #additivemanufacturing #3dprinting #customfabrication #digitalfabrication #customparts #customhardware #custommanufacturing #designfreedom #advancedmanufacturing #geometry #partsondemand #industry4
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Additive Manufacturing Media has produced an excellent video demonstrating how combining 3D printed parts with traditionally manufactured components can lead to better performance. In the video, Stephanie Hendrixson discusses the Xenith ORBIT X PRO, a result of extensive collaboration with BASF Forward AM. This project showcases that Forward AM is not just a material supplier; we contributed by providing simulation, optimization, lattice design, and selecting the most suitable material, Ultrasint TPU01, for HP 3D Printing. Additionally, at the beginning of the video, you'll see another piece of protective gear printed using Photocentric's DL160 amber resin. This example shows the wide-ranging possibilities of additive manufacturing when it comes to selecting the right solution for specific applications.\ The AM industry needs more of this! 😀 Read the full article: https://lnkd.in/dhtCDwfW
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As a private project I designed various different prototypes of 3D printed grippers. The gripper in the video has elastic gripping elements which use the Fin Ray Effect® to adapt its shape to the object it is pressed against. This makes it suitable to grip differently shaped and sized objects. The gripper body is driven by a rotary motor and combines a translational and rotational movement. By using 3D printing the whole gripper can be printed as one complex part and can be printed without the need for any support material. The folding mechanism makes it possible to print the Fin Ray® structures in the ideal orientation and to fit the large part on the build plate. Printed with #Partbox #engineering #additivemanufacturing #3dprinting #3ddruck
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3D printing is renowned for its flexibility and customisation capabilities. For parts 3D printed using Fused Deposition Modelling, or FDM, the available colour range is quite vast, with different finishes such as silk and matte. However, when it comes to parts 3D printed in Nylon using Selective Laser Sintering (SLS) the colours are pretty limited. The good news is that Nylon is an extremely easy material to dye, and it can be done with standard fabric dyes. Learn more here. https://buff.ly/3XZAUGj #3MBIC #3DPrinting #SLSDyeing #Innovation #Manufacturing #engineering #additivemanufacturing #productdesign #productdevelopment
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Multicolor #3Dprinting is not new, but a team of researchers has taken the technology a step further by printing multiple colors with just one material. The research was inspired by the color-changing properties of chameleons. The direct-ink-writing approach used a special material that changes color based on the varying strength of UV light. Unlike traditional colors that come from pigments or dyes, this structural color comes from a nano-textured surface. As a result, the #3Dprinted material is more vibrant and potentially more #sustainable. Read more: https://lnkd.in/eYi6P9d9 #additivemanufacturing #biomimicry
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Can your 3D printer replicate this level of detail? Here’s the next level of #3Dprinting benchmark: the "textured Benchy." I modified the #3DBenchy boat by adding textures on each part using #blender. I then printed it using a Nanoscribe QuantumX with our 3D2GL technology, which allows us to achieve both smooth surfaces and fine textures in a single print using a single recipe with a fixed 1µm slicing. This SEM image showcases the potential of 3D2GL technology to create highly detailed and precise models, pushing the boundaries of what's possible in nanoscale 3D printing. Comment below if you'd like to get the model or learn more about our 3D2GL #technology! The file size is around 1GB. The scale bar is 200µm, but you could print it as big as you want. BTW, also the sea in the background was 3D printed.
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Most followed #3Dprinting Influencer • I help Companies Monetize #AdditiveManufacturing • Reach: 40,088+ Followers, 12M Views, 112K Engagements • 21 years: ZCorp, DDD, Objet, SSYS, Arcam/GE, Desktop Metal, Arevo & Azul3D
Andrea Bertoncini Ph.D.: Can your 3D printer replicate this level of detail? Here’s the next level of #3Dprinting benchmark: the "textured Benchy." I modified the #3DBenchy boat by adding textures on each part using #blender. I then printed it using a Nanoscribe QuantumX with our 3D2GL technology, which allows us to achieve both smooth surfaces and fine textures in a single print using a single recipe with a fixed 1µm slicing. This SEM image showcases the potential of 3D2GL technology to create highly detailed and precise models, pushing the boundaries of what's possible in nanoscale 3D printing. Comment below if you'd like to get the model or learn more about our 3D2GL #technology! The file size is around 1GB. The scale bar is 200µm, but you could print it as big as you want. BTW, also the sea in the background was 3D printed.
Can your 3D printer replicate this level of detail? Here’s the next level of #3Dprinting benchmark: the "textured Benchy." I modified the #3DBenchy boat by adding textures on each part using #blender. I then printed it using a Nanoscribe QuantumX with our 3D2GL technology, which allows us to achieve both smooth surfaces and fine textures in a single print using a single recipe with a fixed 1µm slicing. This SEM image showcases the potential of 3D2GL technology to create highly detailed and precise models, pushing the boundaries of what's possible in nanoscale 3D printing. Comment below if you'd like to get the model or learn more about our 3D2GL #technology! The file size is around 1GB. The scale bar is 200µm, but you could print it as big as you want. BTW, also the sea in the background was 3D printed.
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3D printed Enclosure for the Raspberry Pi 5. The enclosure is printed in PLA material using an FDM printer. The model is focused more on functionality than aesthetics. One guy tried printing it and shared the results with me. The feedback I received from him was for the top cover. It was Thin and clumsy. I have fixed it by increasing the thickness and should work fine now. I am looking forward to more suggestions and ideas to improve my skills and this design as well. Drop down your Feedbacks below👇 _ 📌 If you have a product idea and need compelling visuals to improve your product outlook, let's hop on a quick 1-on-1 free session and see how I can help you out! (𝗹𝗶𝗻𝗸 𝗶𝗻 𝗯𝗶𝗼) #3Dprinting #Raspberrypi #Productdesign #PCBDesign #manufacturing
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Sculpteo's Season of Challenges 2024 - Third Question! 🎉 We’re back with the third question in Sculpteo's Season of Challenges 2024! Let's see those responses! 🗓️ Game Details: Challenge Duration: July 15th to August 9th, 2024 Questions Posted: Every Tuesday and Thursday How to Participate: Answer the question in the comments section below 🏆 Prizes: 1st Place: 400€ voucher for Sculpteo's website 2nd Place: 300€ voucher 3rd Place: 200€ voucher Remember, answering all 8 questions correctly and following Sculpteo enters you into the prize drawing. 🔥 Third Question: Which file format is commonly used to prepare models for 3D printing? a) .JPG b) .STL c) .PDF d) .MP3
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