Tutorials

CROWN GEAR || GEARS || 3D MODELING || NX SIEMENS

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.

INTERNAL GEAR || GEARS || 3D MODELING || NX SIEMENS

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.

RIM || WHEEL || 3D MODELING || NX SIEMENS

2 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.

DIFFERRENTIAL HELICAL CROWN GEAR || GEARS || 3D MODELING || NX SIEMENS

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.

SKETCH MODULE TUTORIAL || TUTORIAL 1 || NX SIEMENS

1 0 Beginner
πŸš€ Master the Sketch Module in NX Siemens! πŸš€ Welcome to this detailed tutorial on the Sketch Module in Siemens NX! In this video, we will walk you through the essential sketching tools and commands, helping you create precise 2D sketches that form the foundation of 3D models. Whether you're a beginner or looking to sharpen your skills, this guide covers everything you need to know! πŸ”Ή Topics Covered in This Tutorial: βœ… Introduction to the Sketch Module βœ… Creating and Editing Sketches βœ… Lines, Circles, Rectangles, and Arcs βœ… Trimming, Extending, and Mirroring βœ… Pattern & Offset Commands βœ… Using Reference Geometry πŸ’‘ Why Watch This Tutorial? βœ” Learn NX Siemens step by step βœ” Improve your CAD design efficiency βœ” Master essential sketching techniques βš™οΈ Software Used: Siemens NX - A powerful and versatile CAD/CAM/CAE software for 3D modeling and engineering design.

Drone Arm

1 0 Beginner
Drone Arm

HERRINGBONE GEAR || GEAR || 3D MODELING || NX SIMENS

1 0 Intermediate
Master 3D Modeling of Herringbone Gears in NX Siemens Software! πŸ› οΈ In this tutorial, we’ll take you step-by-step through the 3D modeling of a Herringbone Gear in NX Siemens software. Whether you're a beginner or a pro, this guide will help you enhance your CAD design skills and learn the best practices for creating precise and efficient gear models. πŸ“Œ What’s Covered: βœ… Basics of Herringbone Gear Design βœ… Detailed modeling process in NX Siemens βœ… Best practices for CAD modeling βœ… Tips for optimizing your design workflow

Autocad Practice Exercise 11 | Autocad Isometric Drawing | Changing Plane in Autocad 3d | CADable

1 0 Beginner
Hi friends welcome back to CADable. This is Engr. Ibrahim Omer. Here's a brief overview of the features and commands you'll be learning in this AutoCAD practice exercise: 1) AutoCAD Basic Settings: You'll likely start with some basic settings in AutoCAD to set up your drawing environment. 2) AutoCAD 2D commands: Understanding 2D drawing commands is essential before moving on to 3D. 3) Press Pull: This is a command used in AutoCAD to extrude 2D shapes into 3D objects. 4) Visual Settings: Adjusting visual settings can help you view and work with your 3D models effectively. 5) Changing Plane in AutoCAD 3D: Learning how to switch between different planes in a 3D workspace is crucial for creating complex 3D objects. 6) 3D Move: This command allows you to move 3D objects in your drawing. 7) Solid Union: Solid Union is a command used for combining two or more 3D objects into a single, unified object. It is a good exercise for beginners and it will be a good practice for beginners. Kindly use play pause technique for practice. Feel free to ask your queries in comment section. I will try to answer each and every question. Keep practicing as practice makes a man perfect. Follow our Channel: https://www.youtube.com/c/CADable​​​ Chapters of the tutorial: Introduction 0:00 AutoCAD basic setting 0:29 Making base of the part 1:10 Making a rib 4:18 Combining bodies 6:45 Making a keyway 7:06 Conclusion 9:20 #autocadisometricdrawing #autocadpresspullcommand #autocadpracticeexercise11 #CADable #autocadpracticeexercises #cadabletutorials

Pipe Elbow AutoCAD | 3D Sweep Command AutoCAD | Subtract Command AutoCAD | Move UCS Icon to Origin

0 0 Beginner
Hi friends welcome back to CADable. This is Engr. Ibrahim Omer and in this tutorial I will shows you how to model a simple 90Β° pipe elbow in AutoCAD. You'll learn how to create the elbow in isometric view using the 3D sweep command and subtract command (or the shell command to make it hollow). I will also explain how to move the UCS icon to the origin and change visual style settings. This step-by-step tutorial is perfect for beginners. Chapters of the tutorial: Introduction 0:00 AutoCAD basic settings 0:21 Move UCS icon to origin 0:41 Sketch path for elbow 0:54 AutoCAD fillet command 1:21 AutoCAD join command 1:37 Making sketch profile 1:48 AutoCAD 3d sweep 2:06 AutoCAD subtract command 2:27 Conclusion 3:06 If you have any questions, please leave a comment, and don’t forget to subscribe for more CAD tutorials! #pipeelbowautocad #autocadpipeelbow #autocadsubtractcommand #UCSiconsettingautocad #autocad3dsweep #CADable #cadabletutorials