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Intermediate

TRIPODAL BALL BEARING || FRICTION REDUCTION || 3D MODELING || NX SIEMENS

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. ⚙️ Software Used: Siemens NX - A powerful and versatile CAD/CAM/CAE software for 3D modeling and engineering design.

Vase Design Tutorial

in Modeling

1 1 Intermediate

Vase Design Tutorial 🌾 Welcome to FarmMach Pro! 🚜 👉 Subscribe Here: https://www.youtube.com/@farmmachpro

Desain Learn Step by Step to Make Servo bus Serial RS485 24V 120kg Menggunakan software Fusion 360

in Modeling

1 0 Intermediate

saya telah mendesain Learn Step by Step to Make Servo bus Serial RS485 24V 120kg dengan menggunakan softwar fusion 360, kegunaan nya untuk berbagai macam kebutuhan seperti contohnya teknologi robotic yang dapat digunakan untuk penggerak lengan robotic.

RUBE GOLDBERG TUTORİAL

in Modeling

1 1 Intermediate

Welcome to FarmMach Pro! 🏎️🌾 Welcome to FarmMach Pro! 🚜 👉 Subscribe Here: https://www.youtube.com/@farmmachpro 👉 Rube Goldberg Machine : https://www.youtube.com/shorts/tJf9RNZf5pQ

Boost Your Workshop Efficiency with 5S! 🛠️✨

Engineer Sohail Rabbani

in Engineering Fundamentals

0 0 Intermediate

The 5S tool is a 💡 powerful and practical method for organizing your workspace and boosting productivity. It’s built on five Japanese principles: Sort 🔴, Set in Order 🔵, Shine 🟡, Standardize 🟢, and Sustain 🟣. Whether you're working in a CAD environment or on the shop floor, 5S helps you remove clutter 🧹, arrange tools 🧰, keep things clean 🧼, create clear standards 📋, and build lasting habits 🔁. With 5S, you'll work smarter, faster, and safer—making every project a success! 🚀👷‍♂️ #5S #GrabCAD #EngineeringTips #LeanTools #OrganizeToWin #ProductivityBoost

Gear Pump

in Assemblies

0 0 Intermediate

Gear Pump

AIR FILTER || CAR FILTERS || 3D MODELING || ASSEMBLY || NX SIEMENS

in Modeling

1 0 Intermediate

Welcome to our tutorials! In this video, we demonstrate the complete 3D modeling process of a car air filter using Siemens NX (Unigraphics NX) software. Whether you're a student, design engineer, or CAD enthusiast, this tutorial will guide you through step-by-step techniques for designing a realistic and functional automotive air filter in a professional CAD environment. 🔍 What you’ll learn: Basic sketching and extrusions Use of Boolean operations and pattern features Parametric modeling for part design Surface modeling essentials (if used) Assembly design tips (if applicable) Industry-level design techniques used in automotive part modeling 📌 Software Used: Siemens NX / NX Unigraphics 📌 Difficulty Level: Beginner to Intermediate 📌 Suitable for: Mechanical Engineers, CAD Designers, Automotive Design Students

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

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 Joint—a key component in mechanical power transmission systems. 🔧 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 🛠️ 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. ⚙️ Software Used: Siemens NX - A powerful and versatile CAD/CAM/CAE software for 3D modeling and engineering design

Using Equations #1

in Dimensioning / Tolerancing

1 1 Intermediate

How to make a measure equal to the other by using equations.

radial engine

in Assemblies

2 1 Intermediate

In this detailed SolidWorks tutorial, you'll learn how to design, assemble, and animate a classic radial engine step by step. Perfect for beginners and mechanical design enthusiasts alike, this guide will walk you through the entire process using SolidWorks' powerful features. We’ll begin by creating every individual part of the radial engine — from the complex crankcase to the pistons, connecting rods, and other essential components. As you model these parts, you'll become familiar with key SolidWorks tools and best practices for precision mechanical design. Once all components are ready, we'll move into the assembly stage. You'll discover how to use mates to position each part accurately and simulate realistic movement within the engine. This phase will show you how to bring multiple parts together into a fully functioning mechanical assembly. Finally, we’ll explore SolidWorks’ animation capabilities. You’ll learn how to create a motion study to simulate the engine’s operation and visualize the synchronized movement of the pistons and crankshaft — a great way to understand the internal mechanics of a radial engine. By the end of this tutorial, you’ll have a fully modeled, properly assembled, and smoothly animated radial engine. More importantly, you’ll gain solid experience with SolidWorks tools and a deeper appreciation for mechanical design principles.

SOLIDWORKS Sheetmetal part nonlineer analysis

in FEM

2 0 Intermediate

I have prepared a training session on nonlinear bending analysis of sheet metal parts in SolidWorks. In this training, you will be able to easily examine the stress concentration areas of the parts. Based on the analysis results, you will be able to evaluate material piling and tearing. You will also be able to obtain deformation data and prepare detailed reports.

DIBUJANDO en SOLIDWORKS - 40 - SCC 001

in Modeling

0 0 Intermediate

DIBUJANDO en SOLIDWORKS - 40 - SCC 001 Un abrazo y nos vemos en el próximo video ¡¡

Solidworks sheet metal sketch bend

in Modeling

1 0 Intermediate

Sheet Metal Design and Press Brake Application in SolidWorks — Training Content Module 1: Introduction to Sheet Metal Design Objectives: Understand the fundamentals of sheet metal parts. Learn about bend allowances, K-factor, and design constraints. Familiarize with sheet metal design standards for manufacturing. Topics Covered: What is Sheet Metal Design? Common Manufacturing Methods (Laser Cutting, Press Brake Bending) Overview of Material Properties Design Guidelines for Sheet Metal Module 2: SolidWorks Sheet Metal Tools Overview Objectives: Explore SolidWorks sheet metal feature set. Understand the difference between solid and sheet metal modeling. Topics Covered: Sheet Metal Toolbar Sheet Metal Parameters: Thickness, Bend Radius, K-Factor Base Flange/Tab, Edge Flange, Hem, Jog, Sketched Bend Flatten and Unflatten Features Exercise: Open a new part. Enable the Sheet Metal tab. Use the Base Flange/Tab feature to create a 2mm thick sheet base. Add Edge Flange to create a simple box shape. Module 3: Creating a Sheet Metal Part Objectives: Create a real-world sheet metal component from scratch. Understand best practices for designing for bending. Step-by-Step: Start with Base Flange/Tab to define the main shape (e.g., rectangular plate). Add Edge Flanges to form sides (adjust angle and length). Add Reliefs for bends (Tear, Obround, or Rectangular). Use Sketched Bend to simulate press brake bends manually. Apply Corner Treatments (Corner Relief, Corner Trim). Check Flat Pattern for laser cutting and press brake compatibility. Module 4: Understanding Bend Calculations Objectives: Learn how SolidWorks calculates bend allowances. Apply correct K-Factor for accurate flat pattern dimensions. Topics Covered: Bend Allowance vs. Bend Deduction K-Factor Explanation (Typical values: 0.3 to 0.5) How to set custom bend tables in SolidWorks Controlling bend direction and bend radius Exercise: Create a U-shaped bracket. Calculate the flat length manually and compare with SolidWorks flat pattern. Modify the K-factor and observe changes. Module 5: Exporting for Manufacturing Objectives: Prepare a design for laser cutting and bending. Generate flat patterns and technical drawings. Topics Covered: Creating 2D Flat Pattern View in Drawings Adding Bend Notes and Bend Lines DXF/DWG Export for Laser Cutting Assigning Bend Directions (Up/Down) Exercise: Generate a drawing of your sheet metal part. Add a Flat Pattern view. Ann

Cam follower assembly

in Assemblies

0 0 Intermediate

You can quickly prepare a sub-assembly of a radial engine lower assembly in SolidWorks using assembly mates. Trying different methods will help you improve. I invite you to follow along. By applying different techniques, you can learn the design modules in SolidWorks at an advanced level using my methods. https://youtu.be/at5PUDZUuOI

🧰 FreeCAD Box With Hinge - FreeCAD 1.0.1 - FreeCAD Body - FreeCAD Part Design

🤜 AllVisuals4U & 3DParts4U 🤛

in Modeling

0 0 Intermediate

🧰 FreeCAD Box With Hinge - FreeCAD 1.0.1 - FreeCAD Body - FreeCAD Part 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.