📌 Check the pinned comment for the full article link! Revolutionizing Gear Design in 3D CAD! ✨🛠 GWJ Technology GmbH has unveiled a new generation of eAssistant integration modules for SOLIDWORKS, Autodesk Inventor, and Solid Edge, bringing direct calculation and 3D model generation for gears and machine elements right into the CAD environment. 🚀🔧 This innovative solution transforms gear design by allowing engineers to generate 3D models seamlessly, which can be directly used for 3D printing, laser cutting, and wire eroding. 📐⚙ Enhanced visualization, prediction of failure modes, and reduction of NVH (Noise, Vibration, and Harshness). GWJ Technology continues to empower engineers with state-of-the-art software that supports seamless design and manufacturing, all while boosting efficiency and precision! 🌍💡 Learn more about this cutting-edge technology and how it’s shaping the future of mechanical engineering! 🌐 #GearDesign #3DCAD #ManufacturingInnovation #MechanicalEngineering #GWJTechnology #Automation #Innovation #EngineeringSolutions #LinkedInUpdates
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In this edition of Engineering Unleashed, we’re spotlighting the versatility of 3D printing in design!💎 From digital blueprints to physical creation, CAD brings every design to life with precision. Ready to explore how digital design meets real-world applications? Let’s dive in! 🚀 #asmenitrkl #ASME #cad #3dprinting #design #autocad #solidworks #engineering #cnc #architecture #manufacturing #fusion #autodesk #designer #mechanical #catia #mechanicalengineering #cadcam #inventor #productdesign #industrialdesign #art #revit #caddesign
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For us, innovation, creativity and passion are a natural prerequisite for being in the market. #3dtecreo help to develop your idea! -Product Design -EES (Engineering Equation Solver) -Product configuration in 3d models (SOLIDWORKS, INVENTOR AND CREO) and calculation models (Mathlab, mathcad, EES and Excel). -Developing functionality of the configuration system both in the 3D and calculation model -Sketches -Features -Assemblies -Surface Modelling -Sheet Metal -Mechanical Parts -3D printing -CAE -CNC -CAD -FEA #3dtecreo #mechanicaldesign #CAE #CAM #steeldesign #design #3dmodels #mechanical #mechanicaldesign #EES #solidworks #automation #Creo #Inventor #industrialdesign #designindustrial #designmechanical #designmekanikal #engineering #CO2 #Thermal #Thermodynamics #3D #3Dprinting #FFF #Stereolithography #freelancedesign #mechanicaldesign #designengineering #engineeringdesign #engineering
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Topology optimization is a crucial technique in engineering design and analysis, enhancing performance while reducing weight and costs. This computational method optimizes material layout to meet specific requirements, achieving lightweight and efficient structures. Widely used in industries such as aerospace and automotive, it's a game-changer in creating complex geometries, especially in 3D printing. Topology optimization is often used in simulation processes, particularly in engineering design and analysis. The goal is to maximize performance measures such as strength, stiffness, or weight reduction while maintaining functional requirements. Enhance Your #Projects with Professional #Mechanical_Design, #CAE_analysis, and #3D Manufacturing Services Look no further! With extensive experience in SolidWorks, I specialize in bringing ideas to life Let’s work together to elevate your projects! Feel free to reach out to discuss how we can turn your vision into reality #MechanicalDesign #Analysis #SolidWorks #Engineering #Innovation #CAD #CAE #3DManufacturing #MechanicalDesignFreelance #3DModeling #ProductDevelopment #Freelance #MechanicalEngineering #Abaqus #StartUp #MechanicalDesign #Simulation #3dprinting #mechanicaldesignfreelance #3drendering #productdesign #freelancing #Engineering #Design #TopologyOptimization
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I built ⚙️🛠️ an innovative massage maker machine that delivers a hand-like massage, providing complete stress and headache relief permanently 😉. This machine is incredibly versatile and can be used anytime—whether you're in the office, at home, or even driving your car. It's super easy to use! This entire project was developed using SolidWorks CAD software, 3D printing technology, and some solid mechanical engineering principles. #3dprinting #CAD
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I built an innovative massage maker machine that delivers a hand-like massage, providing complete stress and headache relief permanently 😉. This machine is incredibly versatile and can be used anytime—whether you're in the office, at home, or even driving your car. It's super easy to use! This entire project was developed using SolidWorks CAD software, 3D printing technology, and some solid mechanical engineering principles. #3dprinting #3dprintingideas #useful3dprint #3dprinted #CAD #solidworks #mechanicalengineering
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Recently i have started using Catia V5 for designing, I would like to share my insights on the software. Firstly, I found Catia to be user-friendly and intuitive, provided that you have a good understanding of the fundamentals of Engineering Drawing. The software's interface is well-organized, with clear and concise icons and menus, making it easy to navigate. Secondly, I was impressed with the software's ability to allow for easy and rapid manipulation of designs. One can change the design layout with minimal effort and time, making the design process efficient and productive. Moreover, I discovered that there is a vast industrial community that provides support and inspiration for designs. The community is full of designers and engineers who are passionate about designing. It is an excellent resource for those looking to learn and improve their skills. Lastly, I was amazed by the feasibility that Catia provides for 3-D printing. The software allows for the easy conversion of designs into STL file format, which is compatible with 3-D printers. This feature opens up a world of possibilities for designers and engineers, enabling them to create intricate 3-D models and prototypes with ease. #3DPrinting #3DPrint #3DPrinter #3DModeling #AdditiveManufacturing #Maker #DIY #Technology #Engineering #Innovation #CATIA #Engineering #CAD #Design #MechanicalEngineering #MechanicalDesign #CADCam #Inventor
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I'm excited to share my latest CAD project—a fully modeled robotic arm designed in SolidWorks. 🦾 Highlights: • Designed a multi-jointed robotic arm with a specialized end effector. • Utilized SolidWorks for precise 3D modeling. • Incorporated a sturdy base for enhanced stability. • Optimized the design for 3D printing and real-world functionality. After extensive research on how to create a functional robotic arm, I identified the essential components for a fully operational design: 1. Integrating servo motors at each joint to enable full control. 2. Implementing an Arduino-based control system. 3. Developing custom software for precise movement control. 4. Adding sensors for positional feedback and object detection. This project has been an incredible opportunity to deepen my understanding of mechanical design and electronics. Key Learnings: • Balancing design aesthetics with functional requirements. • Optimizing 3D models for printability. • Considering electronic integration during the mechanical design phase. • Emphasizing the importance of iterative design in robotics. #Mechatronics #Robotics #Engineering #SolidWorks #CAD
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🚀 Project Insight: Methodology on Topology Optimization of a Hook🚀 Hello LinkedIn community, I previously shared my final project on the topology optimization of a hook. Today, I’d like to delve deeper into the methodology behind this project. Project Objective: The primary aim was to design an optimized lifting hook that maintains its load capacity while reducing material weight, utilizing SolidWorks software and a 3D printer. Additionally, the study reveals the material and cost reduction from the optimized design. Methodology: Phases of Methodology: 1. Design and Simulation: - Initial Design: Created the hook design in SolidWorks, following DIN 15410 standards. - Topology Optimization: Performed using SolidWorks after initial attempts with ANSYS were discontinued due to time and knowledge constraints. - Static Loading Conditions: Simulated a vertical load of 1.6 tons (15,690.64 Newtons) on the hook. - Validation: Compared simulation results to validate the optimized design and its impact on mass reduction. 2. Experimental Procedure: - 3D Printing: Produced the optimized hook using PLA material for the physical prototype. - Testing: Validated the performance of the 3D-printed prototype under real-world conditions. Key Steps: - Material Application and Constraints: Applied materials, fixtures, and loads in SolidWorks. Set objectives to reduce material while ensuring all areas remained below the material yield point. - Symmetry and Thickness Controls: Implemented controls to ensure uniform material removal and maintained minimal wall thickness. - Selective Optimization: Exported topology results to refine material removal for manufacturability and final weight considerations. - Mesh Optimization: Performed iterative meshing to balance detail and processing time. Outcomes: This structured approach led to a significant reduction in material weight while maintaining the hook's load capacity. The optimized design offers potential material and cost savings. Thank you for your interest in my project. Stay tuned for more technical insights and updates! #Mechanical_engineering #Topology_Optimization #project
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One more successful Engineering design project. A client reached out to me with a project, he needed a detailed technical specification of the solution. Problem Statement: For Each 360-degree revolution of Worm Gear the Rack should move 2mm. Steps involved in solving this problem: 👉 Did basic research about the different types of gear like Worm gears, Herringbone gears, etc. 👉Also have gone through my old gear design engineering books to learn about basic gear terminology like Module, Pitch diameter, Pressure angle, helix angle, etc. 👉 Selected the Right tool Autodesk Fusion 360, and added a Gear design plugin from the app store. 👉Did some basic calculations based on the inputs and constraints I already had. 👉Optimized the design for 3D printing to test the mechanism prototype. And Here is the result. If you would like to learn more about the project, please comment below. Also to learn more about our projects and community, follow 3diest. #Industrialdesign #Productdesign #Engineering #Designengineer #CADdesign
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One more successful Engineering design project. A client reached out to me with a project, he needed a detailed technical specification of the solution. Problem Statement: For Each 360-degree revolution of Worm Gear the Rack should move 2mm. Steps involved in solving this problem: 👉 Did basic research about the different types of gear like Worm gears, Herringbone gears, etc. 👉Also have gone through my old gear design engineering books to learn about basic gear terminology like Module, Pitch diameter, Pressure angle, helix angle, etc. 👉 Selected the Right tool Autodesk Fusion 360, and added a Gear design plugin from the app store. 👉Did some basic calculations based on the inputs and constraints I already had. 👉Optimized the design for 3D printing to test the mechanism prototype. And Here is the result. If you would like to learn more about the project, please comment below. Also to learn more about our projects and community, follow 3diest. #Industrialdesign #Productdesign #Engineering #Designengineer #CADdesign
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📍 Full Article Link:https://www.industrialautomationindia.in/articles/3d-models-for-manufacturing-3d-printing-wire-eroding-laser-cutting