VGC Training

Mechanical Systems Design using AutoCAD and SolidWorks

Course Code

Fees

Date

Place

Introduction

The Mechanical Systems Design using AutoCAD and SolidWorks course is a comprehensive training program designed to equip professionals with advanced skills in computer-aided design (CAD) for mechanical engineering applications. This course focuses on creating accurate 2D drawings using AutoCAD and developing complex 3D models with SolidWorks. Participants will learn how to design, assemble, and analyze mechanical components and systems while adhering to engineering standards. The program also covers preparation of detailed technical drawings, simulation, and performance analysis to ensure optimal design quality. Through practical exercises and real-world applications, participants will enhance their ability to deliver precise, efficient, and manufacturable designs. This course is ideal for organizations aiming to improve design workflows, reduce production errors, and increase overall engineering productivity in competitive industrial environments.

Objectives

  • Master AutoCAD and SolidWorks tools
  • Understand engineering drawing fundamentals
  • Create 2D and 3D mechanical designs
  • Develop and assemble mechanical components
  • Analyze mechanical designs effectively
  • Prepare detailed technical drawings
  • Improve design accuracy and quality
  • Apply design concepts in industrial projects

Target Audience

  • Mechanical engineers
  • CAD designers
  • Engineering technicians
  • Manufacturing and production engineers
  • Professionals in engineering industries
  • Engineering project managers
  • Individuals seeking design skill development

Content Outline

Module One – AutoCAD Fundamentals

  • Software interface and tools
  • 2D drawing techniques
  • Layer management
  • Dimensions and measurements
  • Drawing setup
  • Printing and output

Module Two – 3D Modeling in SolidWorks

  • Software interface
  • 3D part creation
  • Basic modeling features
  • Editing models
  • Feature management
  • Practical exercises

Module Three – Mechanical Assemblies

  • Assembly creation
  • Motion constraints
  • Interference detection
  • Component management
  • Motion simulation
  • Industrial applications

Module Four – Technical Drawing Preparation

  • Detailed drawings
  • Dimensioning
  • Material specification
  • Manufacturing files
  • Engineering standards
  • Quality review

Module Five – Design Analysis and Optimization

  • Stress analysis
  • Performance optimization
  • Error reduction
  • Model testing
  • Simulation applications
  • Case studies

Inquiry Form

Please provide your contact details along with your inquiry, and we will respond as soon as possible.

Main Course information Form en