(CATIA) Computer Aided Three-Dimensional Interactive Application Certified Course

Course Description:

Here’s a comprehensive CATIA – Course Content Outline, designed for learners who wish to master CATIA for 3D modeling, product design, and engineering applications. CATIA (Computer-Aided Three-dimensional Interactive Application) is widely used in industries like aerospace, automotive, and manufacturing for product design, engineering, and simulation.

Key Features of Course Divine:

• Collaboration with E‑Cell IIT Tirupati
• 1:1 Online Mentorship Platform
• Credit-Based Certification
• Live Classes Led by Industry Experts
• Live, Real-World Projects
• 100% Placement Support
• Potential Interview Training
• Resume-Building Activities

Career Opportunities After Computer Aided Three-Dimensional Interactive Application :

• Design Engineer
• Aerospace Design Engineer
• Automotive Design Engineer
• Product Design Engineer
• CAD Technician/Draftsman
• CAE Analyst
• PLM Engineer (Product Lifecycle Management)
• Tool Design Engineer

Essential Skills you will Develop Computer Aided Three-Dimensional Interactive Application :

• 3D Modeling & Part Design
• Assembly Design
• Surface Modeling
• Drafting and Detailing
• Sheet Metal Design

Tools Covered:

• Sketcher Workbench
• Part Design Workbench
• Assembly Design Workbench

Syllabus:

Module 1: Introduction to CATIA Overview of CAD/CAM/CAE Introduction to CATIA environment Workbenches in CATIA Understanding GUI and navigation tools.

Module 2: Sketcher Workbench Sketch tools and constraints Geometrical vs. dimensional constraint  Profile creation Editing and modifying sketches.

Module 3: Part Design Workbench Creating 3D solid models from sketches Features: pad, pocket, shaft, groove, hole Boolean operations Draft and fillet features.

Module 4: Assembly Design Bottom-up vs. top-down assembly Inserting and manipulating components Applying assembly constraints
Exploded views.

Module 5: Surface Design Wireframe and surface modeling Creating curves, surfaces, and joins Advanced surface tools: sweep, loft, etc. Healing and trimming surfaces.

Module 6: Generative Shape Design (GSD) Advanced surface modeling techniques
Multi-section and blend surfaces Surface continuity Surface analysis tools.

Module 7: Drafting and Detailing Generating 2D views from 3D models Orthographic, isometric, section views Dimensioning and annotations Drawing standards and title blocks.

Module 8: Sheet Metal Design Sheet metal parameters and standards Walls, bends, flanges, cutouts Creating flat patterns K-factor, bend allowance.

Module 9: DMU Kinematics (Digital Mock-Up) Introduction to kinematic simulations
Mechanism creation Defining joints and constraints Simulating motion.

Module 10: Project Work and Industry Applications Real-time industry design problem Reverse engineering approach Design for manufacturability
Final assessment and certification.

Industry Projects:

• 3D Modeling of Automotive Components
• Mechanical Assembly of an Engine Block
• Product Design: Consumer Electronics Enclosure
• Sheet Metal Component Fabrication
• Reverse Engineering of a Mechanical Part

Who is this program for?

• Mechanical, Aerospace, Automotive, and Civil Engineers
• Manufacturing Professionals
• CAD/CAM/CAE Engineers
• Professionals preparing for roles in product lifecycle management 

How To Apply:

Mobile: 9100348679

Email: coursedivine@gmail.com