trinckle’s Post

Witness the Future of Engineering Validation in Action!   Check out this video showcasing our cutting-edge 3D printer bringing digital designs to life. Today, we're printing a piece of a wheel directly from our SolidWorks designs. This isn't just about creating prototypes; it's about revolutionizing the very essence of engineering validation.   Say goodbye to the era of relying solely on digital simulations and renderings. With our advanced 3D printing capabilities, we're empowering engineers to visually validate their designs with tangible prototypes. No more second-guessing, no more uncertainties. It's about seeing, feeling, and perfecting designs in real time.   Our seamless integration of SolidWorks and 3D printing is reshaping the entire product development cycle. By bridging the gap between digital concepts and physical prototypes, we're accelerating innovation like never before.   At Veolectra, we're not just embracing innovation, we're pioneering it. Join us in redefining the future of engineering design. Let's unlock new possibilities, push boundaries, and create a world where imagination knows no limits! Together, we're shaping tomorrow, today.   #Veolectra #EngineeringInnovation #3DPrinting #SolidWorks #FutureTech #PrototypeValidation #InnovationAtWork #ElectricVehicles #EVIndustry

🏗️ Exciting Update: Exploring the Future of Construction with 3D Printing Technology! 🌟 I'm thrilled to share my project where I delved into the innovative world of 3D printing technology in construction. 👷♂️🖨️ Utilizing tools like AutoCAD for precise 2D designs and Revit Architecture for dynamic 3D modeling, I embarked on creating a small prototype to showcase the immense potential of 3D printing in revolutionizing the construction industry. 🏠💡 After meticulously designing the prototype, I leveraged Ultimaker Cura software to slice the model into printable layers, ensuring optimal structural integrity and efficiency. With everything set, it was time to bring the design to life! 🚀 Witness the journey from concept to creation as I utilized a state-of-the-art 3D printing machine to materialize the prototype layer by layer. The result? A tangible representation of the boundless possibilities offered by 3D printing in construction. 🌐✨ #3DPrinting #ConstructionInnovation #FutureTech #AutoCAD #RevitArchitecture #UltimakerCura #BuildingTheFuture

Hello Everyone! I just wanted to show one of my interests in 3D printing! Recently, I upgraded my 3D printers to handle higher loads of work which will help me prototype in the future! This can be for architecture or just general design! With computational design on board, I may consider incorporating physical rapid prototyping into my work so it can help engage future clients with architectural design iterations or initial product ideas! I am also open to helping printing PLA prototyped designs for anyone interested too! If you are, just drop me a message! The steps I took shown in the video were: 1. Install camera components to a Raspberry Pi and install Octoprint to allow remote printing! 2. Print out a fan shroud that would accommodate more fans to increase airflow. 3. Take apart the old fan and rewire the motherboard completely! I had to wire a new CR touch too to improve levelling and splice the fan wiring! 4. Install the new shroud with the fans and it is complete! Thank you for looking at this post if it has got your attention! #learning #3Dprinting #DIY #Architecture

👏 TLDR: Slant3D has released a new plugin to enable you to sell your 3D prints anywhere on the web (Etsy, SquareSpace, Amazon, etc), and have the item printed on demand and shipped to your customer. Long story: I recently bought a 3D printer for my FIRST robotics team to print their parts. This has sparked the requirement for me to dive deep into Onshape by PTC to become a proficient CAD modeler so that I can support my students as they learn to model. As every 3D printer owner knows, it's a rabbit hole of information, knowledge, and content to both learn how to design with a CAD tool, as well as uncover interesting things to print. I am excited about the upcoming long weekend where I can lose myself in the software, but that's not the central point of this story: I have begun to think seriously about how things are designed for additive manufacturing and how this is changing the world of #manufacturing. While searching for YouTube videos about how to design inline hinges in 3D printed parts, I stumbled onto Slant 3D's YouTube channel, which is a wealth of knowledge for inexperienced designers. Their most recent video is posted below, it highlights the journey that the company went on to create a new API called Teleport for its print on demand services, connect it to ShipStation, and make the print and dropship on demand for any designer. It's now possible for anyone with a computer and some design skills to setup an online shop, and have items created only when the buyer purchases the item. Wow! Kudos to Gabe Bentz and team for pulling this incredible print and fulfillment solution together. #additivemanufacturing https://lnkd.in/gr5c5TXp

Project Update: Customizable 3D-Printed Water Fountain Excited to share my recent experiment with designing, testing, and 3D-printing a unique water fountain using CAD software! The idea struck when I needed a fountain that could adapt and change in design by simply swapping out the fountain head. Starting with some base files from the internet, I built on the foundation to create a model that offers flexibility and a creative twist for different water patterns and aesthetics. The project pushed me to explore new techniques in CAD and 3D printing, and the results are better than I’d imagined! This project has been a fun mix of design, functionality, and a touch of customization—all while highlighting the potential of 3D printing in creating adaptable products. Looking forward to feedback and ideas for further customization! #3DPrinting #CAD #Innovation #Design

🤖 𝐃𝐈𝐘 𝐦𝐞𝐭𝐚𝐥 3𝐃 𝐩𝐫𝐢𝐧𝐭𝐢𝐧𝐠!? 🤖 This was a really fun ArcDED project! What did it take to make it work? ✅A collaborative robot - I used a Universal Robots UR16e for this one ✅A weld source - A basic Miller power source and MIG torch were used ✅Path planning software - Autodesk PowerMill was my choice for this project, but you could also use some of the new options in Fusion360 ✅A band saw to cut the part off the plate and a basic mill to surface the faces ✅Determination - Yeah, there was a lot of trial and error! 😁 In the end it worked out great and I've got a really cool metal 3D printed part to show for it! 🔥 📢 Do you like this? Follow me, Matt Malloy, for more insightful content on #technology, #automation, #collaborativerobots, #robotics, #innovation, and #manufacturing.

🚀 Bringing Ideas to Life with 3D Design & Printing! At AOTEA welding and fabrications, we specialize in transforming innovative concepts into tangible realities. 😉 ✔ Here's a peek at one of our latest 3D design projects. Our 3D printing capabilities allow us to bring even the most intricate designs to life, creating functional prototypes, scale models, and components for precise planning and execution. Whether it's simplifying the complexities of large-scale projects by creating miniatures for better visualization or ensuring the accuracy of custom parts through rapid prototyping, our team delivers with precision and creativity. With 3D printing, we can accelerate project development, reduce costs, and enhance project outcomes by making adjustments before production starts. Whatever your idea, we're here to make it real, from design to execution! #3DPrinting #CADDesign #Innovation #EngineeringExcellence #ProjectPlanning #PrototypeDevelopment #AOTEA

"Deepening my knowledge in Additive Manufacturing! I've been diving deeper into the world of 3D printing, and I'm excited to share my learnings with you all! From CAD design to the final printed product, I've been exploring the entire process: CAD design: Creating precise digital models using computer-aided design software. STL file generation: Converting CAD designs into Stereolithography files, ready for 3D printing. G-code generation: Translating STL files into machine-specific code for the 3D printer. Setting up the 3D printer: Configuring the printer's settings, including axis calibration, filament heating, and material selection. Material quality check: Ensuring the selected materials meet the required standards for a fine finish, proper axis movement, and strength. Belt strength check: Verifying the belts' durability to ensure smooth and precise movement. It's fascinating to see how each step contributes to the overall success of the 3D printing process! I'm eager to continue learning and exploring the possibilities of additive manufacturing. If you have any experiences or insights to share, I'd love to hear them! Let's keep pushing the boundaries of innovation together! #AdditiveManufacturing #3DPrinting #Innovation"

#Welcome to #Day54 of our #100Days of #3DPrintingLearningseries! of Mithra3dtech Today, we’ll dive into the advanced features of slicing software, which play a crucial role in optimizing your 3D prints. #Slicingsoftware is the bridge between your #3Dmodel and your #printer, converting your design into instructions that your printer can follow. Understanding and utilizing the advanced features of this software can significantly improve the quality, efficiency, and success of your #3Dprints. #Key Advanced Features in #Slicing #Software 1. #Variable_Layer_Height This feature allows you to adjust the layer height throughout the print, using finer layers for intricate details and thicker layers for faster printing in less detailed areas. 2. #Custom_Support_Structures Instead of relying on automatically generated supports, this feature allows you to manually place and design supports, optimizing their placement for easier removal and better print quality. 3. #Dynamic_Infill_Density Adjust the infill density dynamically within different sections of your print, increasing strength where needed while saving material in less critical areas. 4. #Adaptive_Slicing #Adaptive #slicing adjusts the layer height automatically based on the geometry of the model, using thinner layers for sloped areas and thicker layers for flat regions. 5. #Sequential_Printing This feature allows you to print multiple objects one at a time instead of layer by layer across all geometries. 6. #G-Code #Customization Advanced users can directly modify the G-code, the instructions sent to the printer, to fine-tune print settings and behaviors. 7. #Multi_Material and #Multi_Extruder_Support -Manage prints with multiple materials or extruders, including settings for material changeovers and combining different filaments in a single print. #Conclusion Mastering the advanced features in slicing software can take your 3D printing to the next level, allowing you to create higher-quality prints with greater efficiency. #3DPrinting #SlicingSoftware #AdvancedFeatures #TechInnovation #AdditiveManufacturing #Mithra3DTech

🎉 Excited to Share a New Milestone in 3D Design! 🎉 I just completed an in-depth course on Autodesk Fusion 360, learning the essentials of 3D design for desktop 3D printing! 🚀 The course covered everything from the basics to creating ten practical, functional products ready for 3D printing, with each lesson building on the last to deepen our skills and design know-how. The real magic of 3D printing begins when you can bring your own designs to life—and now, with Fusion 360, I’m ready to do just that. 💡 From learning best practices to mastering design concepts, this course gave me the skills and confidence to turn ideas into tangible objects. Here’s what I learned: ✨ How to design models for 3D printing using Fusion 360, a powerful, free design tool ✨ Practical design techniques specific to desktop 3D printing ✨ The confidence to create my own designs from scratch! #3DPrinting #Design #Fusion360 #Autodesk #Innovation #3DDesign #LearningJourney #TechForGood