Course Overview

Discover the full potential of CATIA, the leading software for 3D design, digital prototyping, and simulation used across industries like aerospace, automotive, and manufacturing. This industrial-oriented course is tailored for undergraduate and high school students, as well as engineers, offering a hands-on approach to mastering CATIA’s powerful design tools. Whether you're a beginner or looking to refine your skills, this course will equip you with the practical knowledge needed to create, analyze, and manage complex product designs.

CATIA: Advanced 3D Modeling and Simulation Training for Students and Engineers
Mechanical
CATIA: Advanced 3D Modeling and Simulation Training for Students and Engineers
Mechanical

Who Should Attend

  • Undergraduate students pursuing Mechanical, Aerospace, or Industrial Engineering
  • High school students with a passion for 3D modeling and design
  • Aspiring engineers and designers interested in CAD modeling and simulation
  • Engineers and professionals aiming to enhance their expertise in CATIA for industrial applications

What You Will Learn

  • Fundamentals of CATIA and its interface for 3D modeling
  • Creating complex 3D geometries and parametric designs
  • Surface modeling and sheet metal design
  • Assembly design and managing large assemblies
  • Structural analysis and simulation within CATIA
  • Best practices for product design and optimization
  • Industrial applications of CATIA in aerospace, automotive, and manufacturing sectors

Course Structure

This course is structured into comprehensive modules that blend theoretical concepts with practical exercises. Each module covers key aspects of 3D modeling, simulation, and design, ensuring a strong grasp of CATIA’s capabilities.

Course Duration

The course spans 8 weeks, with weekly sessions totaling approximately 25 hours. Each week includes lectures, practical lab exercises, and project-based assignments to provide a robust learning experience.

Course Prerequisites

  • Basic understanding of mechanical engineering principles
  • Familiarity with using CAD software is helpful but not required

Course Module

  • Overview of CATIA and its capabilities
  • Navigation, interface, and essential tools for 3D modeling
  • Basic part design and creating simple geometries
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  • Parametric design principles: constraints, dimensions, and features
  • Creating parametric parts and reusable design elements
  • Advanced feature modeling: holes, fillets, patterns, and sweeps
  • Introduction to surface design in CATIA
  • Creating complex surfaces for automotive and aerospace applications
  • Surface analysis and curvature control
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  • Building assemblies and managing large assembly structures
  • Constraints and relationships between parts
  • Creating exploded views and managing assembly hierarchies
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  • Basics of sheet metal part design: bends, flanges, and cutouts
  • Sheet metal operations and unfolding techniques
  • Industrial applications of sheet metal design in manufacturing
  • Introduction to simulation tools in CATIA
  • Performing basic structural analysis: stress, strain, and deformation
  • Simulation workflows: load applications, boundary conditions, and result interpretation
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  • Creating 2D technical drawings from 3D models
  • Dimensioning, tolerancing, and annotations for manufacturing
  • Preparing designs for production and quality checks
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  • Real-world applications of CATIA in various industries
  • Best practices for integrating CATIA into product design workflows
  • Case studies showcasing successful design projects in automotive and aerospace sectors
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Why Enroll in This Course

  • Industry-Relevant Skills: Gain hands-on experience with CATIA, one of the most widely used CAD tools in engineering design and manufacturing.
  • Expert Instruction: Learn from experienced professionals with extensive knowledge of CATIA and its industrial applications.
  • Career Development: Equip yourself with 3D modeling and simulation skills that are essential for careers in automotive, aerospace, and other engineering fields.
  • Hands-On Learning: Engage in practical projects and case studies, building a portfolio that showcases your design and simulation capabilities.
  • Professional Growth: Engineers can refine their CAD skills and apply them in design, analysis, and product development roles.

Teaching Methodology

  • Lectures: In-class sessions for theory
  • Hands-On Practice: Build circuits and work with real-world components
  • Practical Projects: Industry-relevant mini-projects to enhance learning
  • Assessment: Quizzes, project work, and a final evaluation to ensure understanding

Course Certification

Upon successful completion, students will receive a Certificate of Completion demonstrating their proficiency in good practices and safety in electronics and electrical engineering.

Instructor Information

This course is taught by experienced professionals in electronics and electrical engineering, with a focus on practical, real-world skills.

How to Enroll?

To enroll in this course, visit our registration page or contact us at admin@ssitraininginfo.com, 0422-2209999