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UNIVERSAL JOINT || JOINTS || 3D MODELING || PART MODELING & ASSEMBLY || NX SIEMENS

VR DESIGNER
in Modeling
6 1 Intermediate
Welcome to this comprehensive tutorial on 3D modeling a Universal Joint using Siemens NX software. Whether you're a mechanical engineering student, CAD designer, or enthusiast, this video walks you through every step of designing a realistic Universal Jointβ€”a key component in mechanical power transmission systems. πŸ”§ What You’ll Learn in This Video: - Basics of part modeling in NX Siemens - Creating sketches and applying constraints - Extruding and revolving features for mechanical components - Assembling parts of the universal joint - Real-time modeling tips and best practices πŸ› οΈ About the Universal Joint: A universal joint, also known as a U-joint, is a joint or coupling that allows shafts to rotate freely when they are not in a straight line. Commonly used in vehicle drive shafts and industrial machinery, it enables torque transmission at varying angles. βš™οΈ Software Used: Siemens NX - A powerful and versatile CAD/CAM/CAE software for 3D modeling and engineering design
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CROWN GEAR || GEARS || 3D MODELING || NX SIEMENS

VR DESIGNER
in Modeling
4 0 Intermediate
πŸŽ₯ Mastering Crown Gear 3D Modeling in NX Siemens Software Welcome to our latest tutorial where we delve into the fascinating world of crown gear 3D modeling using Siemens NX software! This step-by-step guide is perfect for beginners and professionals alike who want to expand their skills in mechanical design and precision engineering. πŸ”Ή What You'll Learn Introduction to crown gears and their applications. Key features and tools in Siemens NX for gear modeling. How to create precise gear profiles using sketches and advanced modeling techniques. Tips to ensure design accuracy and efficiency. πŸ’‘ Whether you're a CAD enthusiast, engineering student, or a professional designer, this tutorial will provide you with the insights and techniques to model crown gears seamlessly. πŸ“Œ Key Features: - Detailed, easy-to-follow steps. - Use of Siemens NX's advanced modeling tools. - Professional tips to improve design efficiency.
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CUP HOLDER || SURFACE MODELING || PLASTIC MODELING || SURFACE COMMANDS || NX SIEMENS

VR DESIGNER
in Modeling
4 1 Intermediate
In this video, dive into a comprehensive guide on creating an ergonomic and functional cup holder design using NX Siemens software. Learn the step-by-step process of: βœ… Designing complex surfaces for smooth aesthetics and usability. βœ… Applying advanced plastic modeling techniques for manufacturing-ready designs. βœ… Utilizing tools like Sweep, Trim, Join, and Fillet to craft seamless geometries. βœ… Optimizing for durability and moldability in injection molding processes. This tutorial is perfect for engineers, designers, and students looking to enhance their CAD skills and create professional-grade designs for automotive or consumer products.
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HELICAL GEAR || GEARS || 3D MODELING || NX SIEMENS

VR DESIGNER
in Modeling
4 0 Intermediate
🌟 Learn How to Create a 3D Model of a Helical Gear in Siemens NX! 🌟 Are you ready to master 3D modeling in Siemens NX? In this step-by-step tutorial, we'll guide you through the process of designing a helical gear from scratch. Whether you're a beginner or an experienced CAD user, this video is packed with tips, tricks, and techniques to improve your skills. πŸ“Œ What You'll Learn in This Video: Understanding the basics of helical gears and their applications. Setting up the design environment in Siemens NX. Creating the gear geometry using advanced modeling techniques. Applying proper dimensions, gear profiles, and helix angles. Performing design validation and visualization. πŸ‘¨β€πŸ’» Why Helical Gears? Helical gears are widely used in machinery due to their smooth operation and high load-carrying capacity. Knowing how to model them is essential for engineers and designers in the automotive, aerospace, and manufacturing industries.
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INTERNAL GEAR || GEARS || 3D MODELING || NX SIEMENS

VR DESIGNER
in Modeling
3 0 Intermediate
πŸ”§ Learn how to model an Internal Gear in Siemens NX with this detailed 3D CAD tutorial! Whether you're a beginner or an experienced user, this video will guide you through the step-by-step process of creating a precision internal gear using advanced modeling techniques in NX Siemens software. πŸ“Œ Topics Covered: βœ… Understanding Internal Gears & Their Applications βœ… Creating Gear Profiles Using Sketching Tools βœ… Using Extrude, Revolve, and Boolean Operations βœ… Parametric Design for Customizable Gears βœ… Tips for Accurate Gear Modeling & Optimization Siemens NX is a powerful CAD/CAM/CAE software widely used in the mechanical design industry. Mastering internal gear design is essential for applications like gearboxes, planetary gear systems, and automotive transmissions.
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Isometric - 1 Design in Siemens NX | Beginner Tutorial Siemens NX 1926 | #NX

Paul Dadzie
in Modeling
3 0 Beginner
This video will introduce you to some of the easy and basic concept of an Isometric design in NX 1926. This is a Beginner Tutorial in CAD design that will help you start a great path in Siemens NX CAD learning and Expertise. I hope you enjoy this Video -------------------------------------------------------------------------------------------------------------- Siemens NX 1926 software is an advanced high-end CAD/CAM/CAE 3d Modeling Tool. It is also a flexible and powerful integrated solution that helps you deliver better products faster and more efficiently. NX delivers the next generation of design, simulation, and manufacturing solutions that enable companies to realize the value of the digital twin. Learning NX just like any other CAD software is super easy and user-friendly. It is used, among other tasks, for: β€’ Design (parametric and direct solid/surface modelling) β€’ Engineering analysis (static; dynamic; electro-magnetic; thermal, using the finite element method; and fluid, using the finite volume meth
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RIM || WHEEL || 3D MODELING || NX SIEMENS

VR DESIGNER
in Modeling
3 0 Intermediate
πŸš— Master 3D RIM Modeling in NX Siemens! πŸš— In this tutorial, we’ll walk you through the step-by-step process of designing a realistic 3D wheel rim using Siemens NX software. This video is perfect for beginners and professionals looking to enhance their CAD modeling skills. πŸ”Ή What You’ll Learn: βœ” Setting up your workspace in Siemens NX βœ” Creating the basic rim profile βœ” Using extrude, revolve, and sweep features βœ” Applying patterns for spokes and symmetrical design βœ” Filleting and refining the edges for a smooth finish βœ” Rendering and visualizing the final model By the end of this tutorial, you'll be able to confidently design high-quality rims for automotive and engineering projects using Siemens NX! βš™οΈ Software Used: Siemens NX - A powerful and versatile CAD/CAM/CAE software for 3D modeling and engineering design.
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MICROPROCESSOR 8085 || ELECTRICAL EQUIPMENTS || 3D MODEL || NX SIEMENS

VR DESIGNER
in Modeling
2 0 Intermediate
Welcome to our detailed tutorial on 3D modeling of the 8085 Microprocessor using Siemens NX software. In this video, we take you through the step-by-step process of creating an accurate 3D representation of the Intel 8085 microprocessor, covering essential tools, commands, and techniques in NX CAD. πŸ”Ή What You Will Learn: βœ… Understanding the 8085 microprocessor structure βœ… Creating the base body and chip layout βœ… Modeling pins and connections This tutorial is perfect for engineering students, CAD designers, and electronics enthusiasts who want to explore product modeling in Siemens NX. βš™οΈ Software Used: Siemens NX - A powerful and versatile CAD/CAM/CAE software for 3D modeling and engineering design.
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FENDER || 3D MODELING & SURFACEING || VEHICLE BODY || NX SIEMENS

VR DESIGNER
in Modeling
2 0 Intermediate
Welcome to our step-by-step tutorial on 3D modeling a car fender using Siemens NX! In this video, you'll learn how to create a precise and professional automotive fender model from scratch using advanced surfacing tools and parametric design techniques in NX CAD software. Whether you're a mechanical design student, an automotive engineer, or just passionate about CAD, this tutorial will help you understand real-world design practices used in the automotive industry. πŸ”§ What you'll learn in this video: - Setting up your design environment in Siemens NX - Sketching the base profile of the fender - Using extrude, revolve, and sweep commands - Surface modeling techniques for complex curves - Adding design details like mounting points and edge flanges - Finalizing the model with proper constraints and dimensions - Tips for preparing the part for simulation or manufacturing βš™οΈ Software Used: Siemens NX - A powerful and versatile CAD/CAM/CAE software for 3D modeling and engineering design.
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SPOILER || WINGS || 3D & SURFACE MODELING || VEHICLE BODY || NX SIEMENS

VR DESIGNER
in Modeling
2 1 Expert
Welcome to our latest CAD tutorial! In this video, we'll walk you through the complete process of modeling a car spoiler using Siemens NX β€” one of the industry-leading CAD/CAM/CAE tools. From creating the initial sketches to finalizing the aerodynamic surfaces, you'll learn the professional techniques used in automotive design. Whether you're a beginner or looking to sharpen your skills, this tutorial will give you clear insights into using NX Surface Modeling, Extrude, Sweep, Loft, and Edge Blend features to create a realistic and functional spoiler. 🎯 What You'll Learn: - Setting up reference planes and curves - Sketching aerodynamic profiles -- Creating solid bodies using sweeps and lofts - Surface modeling techniques for smooth flow - Finishing touches: blends, fillets, and aesthetics - Best practices for automotive part design
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TRIPODAL BALL BEARING || FRICTION REDUCTION || 3D MODELING || NX SIEMENS

VR DESIGNER
in Modeling
2 0 Intermediate
In this video, we demonstrate the complete 3D modeling process of a Tripodial Ball Bearing, a crucial component used in automotive drive shafts and CV joints. Using Siemens NX (Unigraphics) CAD software, we take you step-by-step through the precision modeling of this complex part, focusing on design accuracy, realistic geometry, and CAD best practices. What You’ll Learn in This Video: Introduction to Tripodial Ball Bearing and its automotive application Sketching and parametric design techniques in Siemens NX 3D feature creation including extrude, revolve, and boolean operations Assembly design considerations for bearing movement and fit Visualization and rendering tips for presenting your final model Whether you’re a mechanical design engineer, automotive enthusiast, or CAD student, this tutorial will help you understand not just how to model, but also why certain design decisions matter in real-world engineering. βš™οΈ Software Used: Siemens NX - A powerful and versatile CAD/CAM/CAE software for 3D modeling and engineering design.
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BEVEL GEAR || GEARS || 3D MODELING || NX SIEMENS

VR DESIGNER
in Modeling
2 0 Intermediate
Welcome to this detailed tutorial on creating a Bevel Gear using Siemens NX! In this video, we'll guide you through the entire process of 3D modeling a bevel gear, ensuring you learn essential design techniques and tips for precision engineering. πŸ“Œ What You'll Learn: 1️⃣ Setting up your Siemens NX workspace for gear modeling. 2️⃣ Using sketch tools to define the gear profile. 3️⃣ Applying extrude, pattern and unit commands. 4️⃣ Creating the teeth with advanced features like patterning. 5️⃣ Finalizing the gear model with realistic rendering. Whether you're a beginner or a professional, this tutorial will boost your skills in parametric modeling and mechanical design. Watch till the end for expert tips to enhance your designs!
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EXHAUST MANIFOLD || ENGINE PART || INLINE 4 CYLINDER ENGINE || PART MODELING || NX SEIMENS

VR DESIGNER
in Modeling
2 0 Intermediate
Welcome to VR DESIGNER! In this detailed CAD modeling tutorial, we walk you through the complete 3D design process of an Exhaust Manifold for an Inline 4-cylinder engine using Siemens NX (Unigraphics NX) software. πŸ“Œ Whether you're a mechanical engineering student, a design engineer, or a CAD enthusiast, this step-by-step guide is perfect to understand: βœ… The design logic behind exhaust manifolds βœ… Parametric modeling in NX βœ… Accurate sketching and 3D features like sweep, loft, extrude, mirror, and Boolean operations
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DIFFERRENTIAL HELICAL CROWN GEAR || GEARS || 3D MODELING || NX SIEMENS

VR DESIGNER
in Modeling
1 0 Intermediate
In this detailed tutorial, learn how to create a precise 3D model of a Differential Helical Gear using Siemens NX software. This video walks you through every step, from setting up the gear parameters to creating the helical gear profile and finalizing the differential assembly. Whether you're a beginner or a professional in CAD design, this guide will enhance your skills and understanding of advanced gear modeling techniques. Topics Covered in This Video: - Introduction to helical and differential gears. - Setting up the Siemens NX environment. - Designing the helical gear tooth profile. - Applying the helical twist using advanced tools. - Assembling the differential mechanism. - Tips for ensuring accuracy in your design. - Final rendering and export settings. Who is This Video For? - Mechanical design engineers. - CAD modeling enthusiasts. - Engineering students learning Siemens NX. - Professionals working on gear systems. Why Watch This Tutorial? Differential helical gears are critical in automotive and industrial applications. Mastering their design ensures high performance and precision in real-world systems. By the end of this video, you'll have a clear understanding of how to model these gears effectively using Siemens NX.
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MUFFLER || EXHAUST || PART MODELING || 3D MODELING || NX SIEMENS

VR DESIGNER
in Modeling
1 0 Intermediate
πŸ”§ Welcome to VR DESIGNER! In this tutorial, we take you through a step-by-step 3D modeling of a muffler using Siemens NX (Unigraphics NX). Whether you're an automotive engineer, CAD designer, or a student looking to enhance your modeling skills, this video is designed to guide you through essential surface and solid modeling techniques used in muffler/exhaust system design. πŸ’‘ What You’ll Learn: - Introduction to muffler components and design intent - Creating base geometry using sketches - Solid modeling and surface modeling techniques - Applying fillets, shells, and pattern features - Assembly-ready model creation - Best practices for clean CAD modeling - Exporting model and rendering tips βš™οΈ Software Used: Siemens NX - A powerful and versatile CAD/CAM/CAE software for 3D modeling and engineering design.
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The Computer-Aided Design ("CAD") files and all associated content posted to this website are created, uploaded, managed and owned by third-party users. Each CAD and any associated text, image or data is in no way sponsored by or affiliated with any company, organization or real-world item, product, or good it may purport to portray.